Ryszard Romaniuk | Warsaw University of Technology (original) (raw)

Papers by Ryszard Romaniuk

International Journal of Electronics andTelecommunications, 2024

First sections of the paper contain some considerations relevant to the reversibility of quantum ... more First sections of the paper contain some considerations relevant to the reversibility of quantum gates. The Solovay-Kitayev theorem shows that using proper set of quantum gates one can build a quantum version of the nondeterministic Turing machine. On the other hand the Gottesmann-Knill theorem shows the possibility to simulate the quantum machine consisting of only Clifford/Pauli group of gates. This paper presents also an original method of designing the reversible functions. This method is intended for the most popular gate set with three types of gates CNT (Control, NOT and Toffoli). The presented algorithm leads to cascade with minimal number CNT gates. This solution is called optimal reversible circuits. The paper is organized as follows. Section 5 recalls basic concepts of reversible logic. Section 6 contain short description of CNT set of the reversible gates. In Section 7 is presented form of result of designing as the cascade of gates. Section 8 describes the algorithm and section 9 simple example.

Elektronika - konstrukcje, technologie, zastosowania, 2024

Telecommunications is one of the fundamental components of civilization. Together with transport,... more Telecommunications is one of the fundamental components of
civilization. Together with transport, and perhaps also energy, it
belongs to the group of pillars of civilization that shrink the Earth.
The factor in optical-radio telecommunications that shrinks our
planet is the useful bandwidth, its granulation appropriate for use,
and geographically dense access to it. Such bandwidth is actually
becoming more and more available, and therefore discussions
about its resources are inevitable. The fundamental question seems
downright illogical. Is the bandwidth unlimited? The bandwidth is
related to energy and entropy. A similar question is asked about
energy resources and the answer is more obvious. From our
egocentric point of view, energy resources are unlimited. It is similar
with the bandwidth, its resources are unlimited. Our research and
technical efforts to control the bandwidth consist in cutting out a
useful piece of this limitlessness. Here we recall several research
and technical paths on the way to the functionalization of the optical
bandwidth in the area of optical fiber communications. Broadening
the bandwidth was related to overcoming spectral attenuation to
physical limits, managing dispersion, amplification and correction of
the signal without going out of the optical fiber, mastering scattering,
coherence and nonlinear phenomena, functionalization of the optical
frequency comb, photonic integration, and aiming at soliton and now
quantum transmission.
KEYWORDS: optical fiber communications, optical frequency
combs, optical bandwidth, confinements of optical fibre transmission,
optical fibre nonlinearity, transmission domains – space SDM
and wave WDM

Przegląd Telekomunikacyjny, 2024

Perhaps to some engineers, even those closer to telecommunications, it may seem that the photon i... more Perhaps to some engineers, even those closer to
telecommunications, it may seem that the photon is already
done revolutionizing the telecommunications. After all, so
much has been achieved. A single optical fiber now carries
terabits of data. Nothing could be further from the truth. If we
are talking about the emerging TbE terabit Ethernet standard,
and the Eth standard is still connected rather to local networks,
what bit rates will be used in massive transport networks,
backbone networks, huge optical pipes. Not only out of
greed, but also out of technical need, we are looking for more
bandwidth. This search for the optical band is still carried
out in many ways, incoherent and coherent, classical and
quantum, and generally methods that use the amazing
properties of the photon. In the article, which may develop into
a series if it finds the reader's interest, let's try to look at some
of the increasingly sophisticated methods of searching for
the bandwidth. Some of the directions for exploring the
bandwidth are obvious, as they point to excellent previous
achievements that can still be improved. Such a massive field
of research, with some well-trodden paths, is radiophotonics,
a term analogous to radioelectronics - where the basis is
frequency engineering. We do not know the prospects for
many other directions. Maybe they are dead ends. Searching
for a potential hidden optical band is not a game of Sherlock
Holmes, it is a science combining physics, mathematics,
photonics, electronics, telecommunications, and our research
intuition. This is undoubtedly a serious research area, and
for the discoverer of this hidden bandwidth, the next Nobel
Prize award.
KEYWORDS: optical communication, optical networks,
optical fibre communications, optical fibre, communications
lasers, terabits

Przegląd Telekomunikacyjny, 2024

The NISQ era in the development of quantum information systems QIS plays the role of testing key ... more The NISQ era in the development of quantum
information systems QIS plays the role of testing key system
parameters such as: technological platforms, system
topologies, level translation algorithms, including physicslogic,
error tolerance, integration possibilities, scalability,
generation of quantum advantage, quantum volume and
hyperentanglement, susceptibility to decoherence, ease of
generating quantum resources, the possibility of their distillation
and functionalization, etc. In this article, we limit
this gigantic research area that could completely change
telecommunications, computing and metrology in the coming
decades to the photonic platform and the generation of
quantum optical microcombs (QOM). QOM provides hundreds
or more individually controllable time and frequency
modes to the integrated photonic quantum system, which
can be used effectively to scale up the quantum system.
Such a QPIC quantum photonic integrated circuit, operating
in the fiber optic band and in the DWDM standard, is naturally
coupled to the fiber optic network. QOM modes entangled in
the energy-time domain enable the control of their quantum
states, scaling and the implementation of new functionalities
in QPIC and quantum optical fiber telecommunications.
KEYWORDS: quantum optical microcombs, quantum frequency
combs, photonic integrated circuits, quantum optical
fibre communications

Elektronika - konstrukcje, technologie, zastosowania, 2023

Integrated photonics and integrated electronics are the basis of many classical technologies, suc... more Integrated photonics and integrated electronics are the basis of many classical technologies, such as optical telecommunications, sensors and telemetry, optical clocks, computing, etc. The components that build such functional systems are coupled VLSI and PIC systems. Quantum integrated photonics, most compatible with the VLSI CMOS systems, is one of the most serious paths to developing quantum information systems QIS. The component building the system is the QPIC integrated circuit with the accompanying VLSI electronics. QPIC is a quantum generation of the PIC.

Elektronika - konstrukcje, technologie, zastosowania, 2024

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics. It is
a research and application area covering phenomena and processes,
substances, objects in the size scale from nanometers to macro,
such as viruses, molecules, organelles, cells, bacteria, membranes,
tissues, small and larger organisms, in terms of their photonic
properties. Biophotonics includes research and standardized clinical
and general-purpose laboratory instrumentation. An active direction
in the development of biophotonics is its quantum branch, where
processes that occur at the nanoscale are studied. The interest in
these nanoprocesses, either containing a photonic phenomenon
or studied with photonic methods, stems from the fact that they
often constitute the foundation of processes that occur and are
later reflected in the macroscale of the entire biological object. The
series of articles on biophotonics is an abbreviation of a lecture
delivered by the author at the Faculty of Electronics and Information
Technology of the Warsaw University of Technology for M.Sc. and
PhD students. This part of the series deals withphotodynamic
theranostics. The previous parts concerned research areas and
correlations of biophotonics with related disciplines, biophotonic
processes, photo-biosubstances, objects, spectroscopy, biophotonic
laboratory assays and techniques.

Elektronika - konstrukcje, technologie, zastosowania, 2024

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics. It is a research and application area covering phenomena and processes, substances, objects in the size scale from nanometers to macro, such as viruses, molecules, organelles, cells, bacteria, membranes, tissues, small and larger organisms, in terms of their photonic properties. Biophotonics includes research and standardized clinical and general-purpose laboratory instrumentation. An active direction in the development of biophotonics is its quantum branch, where processes that occur at the nanoscale are studied. The interest in these nanoprocesses, either containing a photonic phenomenon or studied with photonic methods, stems from the fact that they often constitute the foundation of processes that occur and are later reflected in the macroscale of the entire biological object. The series of articles on biophotonics is an abbreviation of a lecture delivered by the author at the Faculty of Electronics and Information Technology of the Warsaw University of Technology for M.Sc. and PhD students. This part of the series deals with optogenetics. The previous parts concerned research areas and correlations of biophotonics with related disciplines, biophotonic processes, photo-biosubstances, objects, spectroscopy, biophotonic laboratory assays and techniques.

Elektronika - konstrukcje, technologie, zastosowania, 2023

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics. It is a research and application area covering phenomena and processes, substances, objects in the size scale from nanometers to macro, such as viruses, molecules, organelles, cells, bacteria, membranes, tissues, small and larger organisms, in terms of their photonic properties. Biophotonics includes research and standardized clinical and general-purpose laboratory instrumentation. An active direction in the development of biophotonics is its quantum branch, where processes that occur at the nanoscale are studied. The interest in these nanoprocesses, either containing a photonic phenomenon or studied with photonic methods, stems from the fact that they often constitute the foundation of processes that occur and are later reflected in the macroscale of the entire biological object. The series of articles on biophotonics is an abbreviation of a lecture delivered by the author at the Faculty of Electronics and Information Technology of the Warsaw University of Technology for PhD students. This part of the series deals with the issues of near field and SPM bio-imaging. The previous parts concerned research areas and correlations of biophotonics with related disciplines, biophotonic processes, photo-biosubstances, objects, spectroscopy, biophotonic laboratory assays and techniques.

Elektronika - konstrukcje, technologie, zastosowania, 2023

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics. It is a research and application area covering phenomena and processes, substances, objects in the size scale from nanometers to macro, such as viruses, molecules, organelles, cells, bacteria, membranes, tissues, small and larger organisms, in terms of their photonic properties. Biophotonics includes research and standardized clinical and general-purpose laboratory instrumentation. An active direction in the development of biophotonics is its quantum branch, where processes that occur at the nanoscale are studied. The interest in these nanoprocesses, either containing a photonic phenomenon or studied with photonic methods, stems from the fact that they often constitute the foundation of processes that occur and are later reflected in the macroscale of the entire biological object. The series of articles on biophotonics is an abbreviation of a lecture delivered by the author at the Faculty of Electronics and Information Technology of the Warsaw University of Technology for PhD students. This part of the series deals with the issues of nonlinear, multiphoton, near field and SPM bio-imaging. The previous parts concerned research areas and correlations of biophotonics with related disciplines, biophotonic processes, photo-biosubstances, objects, spectroscopy, biophotonic laboratory assays and techniques.

Elektronika - konstrukcje, technologie, zastosowania, 2023

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics.
It is a research and application area covering phenomena and
processes, substances, objects in the size scale from nanometers
to macro, such as viruses, molecules, organelles, cells, bacteria,
membranes, tissues, small and larger organisms, in terms of their
photonic properties. Biophotonics includes research and standardized
clinical and general-purpose laboratory instrumentation. An
active direction in the development of biophotonics is its quantum
branch, where processes that occur at the nanoscale are studied.
The interest in these nanoprocesses, either containing a photonic
phenomenon or studied with photonic methods, stems from
the fact that they often constitute the foundation of processes
that occur and are later reflected in the macroscale of the entire
biological object. The series of articles on biophotonics is an
abbreviation of a lecture delivered by the author at the Faculty
of Electronics and Information Technology of the Warsaw University
of Technology for PhD students. This part of the series
deals with the issues of photoacoustics, thermoacoustics and
photothermal imaging. The previous parts concerned research
areas and correlations of biophotonics with related disciplines,
biophotonic processes, photo-biosubstances, objects, spectroscopy,
biophotonic laboratory assays and techniques.

Elektronika - konstrukcje, technologie, zastosowania, 2023

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics.
It is a research and application area covering phenomena and
processes, substances, objects in the size scale from nanometers
to macro, such as viruses, molecules, organelles, cells, bacteria,
membranes, tissues, small and larger organisms, in terms of their
photonic properties. Biophotonics includes research and standardized
clinical and general-purpose laboratory instrumentation. An
active direction in the development of biophotonics is its quantum
branch, where processes that usually occur at the nanoscale
are studied. The interest in these nanoprocesses, either containing
a photonic phenomenon or studied with photonic methods,
stems from the fact that they often constitute the foundation of
processes that occur and are later reflected in the macroscale
of the entire biological object. The series of articles on biophotonics
is an abbreviation of a lecture given by the author at the
Faculty of Economics and Information Technology of the Warsaw
University of Technology for PhD students. The next part of the
series deals with the issues of biochemical imaging combining
domains of time, space, energy, biochemistry and biophysics.
The previous parts concerned research areas and correlations
of biophotonics with related disciplines, biophotonic processes,
photo-biosubstances, objects, spectroscopy, biophotonic laboratory
techniques.

Elektronika - konstrukcje, technologie, zastosowania, 2023

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics.
It is a research and application area covering phenomena and
processes, substances, objects in the size scale from nanometers
to macro, such as viruses, molecules, organelles, cells, bacteria,
membranes, tissues, small and larger organisms, in terms of their
photonic properties. Biophotonics includes research and standardized
clinical and general-purpose laboratory instrumentation. An
active direction in the development of biophotonics is its quantum
branch, where processes that usually occur at the nanoscale are
studied. The interest in these nanoprocesses, either containing a
photonic phenomenon or studied with photonic methods, stems
from the fact that they often constitute the foundation of processes
that occur and are later reflected in the macroscale of the
entire biological object. The series of articles on biophotonics is
an abbreviation of a lecture given by the author at the Faculty of
Economics and Information Technology of the Warsaw University
of Technology for PhD students. The next part of the series deals
with the issues of super-resolution imaging, breaking the Abbe
diffraction limit. The previous parts concerned research areas and
correlations of biophotonics with related disciplines, biophotonic
processes, photo-biosubstances, objects, spectroscopy, biophotonic
laboratory techniques.

International Journal of Electronics and Telecommunications, 2023

The article is a sort of advanced publication workshop prepared by a group of M.Sc. students in I... more The article is a sort of advanced publication workshop prepared by a group of M.Sc. students in ICT participating in the course on QIT. The idea behind the publishing exercise is to try to link, if possible, individual own work just under realization for the thesis with new unique possibilities offered by the QIT. Each chapter is written by a single author defining concisely her/his research interest in the classical ICT field and trying to find possible correlations with respective abruptly developing branches of the QIT. The chapter texts are somehow moderated by the tutor but are exclusively authored by young researchers. The aim was to present their views on the possible development directions of particular subfields of QIT, if not fully mature, but still based on their own ideas, research and dreams.

Przegląd Telekomunikacyjny, 2023

In free space, a photon has two spin degrees of freedom, which means that it is a perfect flying ... more In free space, a photon has two spin degrees of freedom,
which means that it is a perfect flying qubit. Due to the nature
of the interaction of the photon with the matter of the source, modulator
and detector, the photon can theoretically easily transfer
a quantum state to a stationary qubit. Which makes it possible
to concatenate a quantum channel. Photon qudit is of course an
area of basic and application research in the field of photon science,
and in the area of its functionalization in telecommunications
and computing. It is an important part of photon engineering and
a new branch of photonics. The engineering of the photon, by adding
additional degrees of freedom to the photon, makes it a qudit.
The photon qudit, having all the advantages of a photon, becomes
a carrier of a huge portion of quantum information, if only such
a complex quantum system and the way of coding information in it
can be functionalized. In simple terms, the most effective method
of producing a functional photon qudit is to have an appropriate
source capable of generating complex formats of the electromagnetic
field containing a single ideal photon, or complex formats
of a single or multiple photon, including a fractional photon. The
very broad research topic on photon qudits is presented here, in
a far from exhaustive way, with several examples of directions
of work.
KEYWORDS

Elektronika - konstrukcje, technologie, zastosowania, 2023

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics.
It is a research and application area covering phenomena and
processes, substances, objects in the size scale from nanometers
to macro, such as viruses, molecules, organelles, cells, bacteria,
membranes, tissues, small and larger organisms, in terms of their
photonic properties. Biophotonics includes research and standardized
clinical and general-purpose laboratory instrumentation. An
active direction in the development of biophotonics is its quantum
branch, where processes that usually occur at the nanoscale
are studied. The interest in these nanoprocesses, either containing
a photonic phenomenon or studied with photonic methods,
stems from the fact that they often constitute the foundation of
processes that occur and are later reflected in the macroscale
of the entire biological object. The series of articles on biophotonics
is an abbreviation of a lecture given by the author at the
Faculty of Economics and Information Technology of the Warsaw
University of Technology for PhD students. The next part of the
series deals with the general issues of super-resolution imaging.
The previous parts concerned research areas and correlations
of biophotonics with related disciplines, biophotonic processes,
photo-biosubstances, objects, spectroscopy, biophotonic laboratory
techniques.

International Journal of Electronics and Telecommunications, 2023

This article discusses four fields of study with the potential to revolutionize our understanding... more This article discusses four fields of study with the
potential to revolutionize our understanding and interaction with
biological systems: quantum biophotonics, molecular and
supramolecular bioelectronics, quantum-based approaches in
gaming, and nano-biophotonics. Quantum biophotonics uses
photonics, biochemistry, biophysics, and quantum information
technologies to study biological systems at the sub-nanoscale level.
Molecular and supramolecular bioelectronics aim to develop
biosensors for medical diagnosis, environmental monitoring, and
food safety by designing materials and devices that interface with
biological systems at the molecular level. Quantum-based
approaches in gaming improve modeling of complex systems, while
nanomedicine enhances disease diagnosis, treatment, and
prevention using nanoscale devices and sensors developed with
quantum biophotonics. Lastly, nano-biophotonics studies cellular
structures and functions with unprecedented resolution.

CBM Progress Report 2022, 2023

Compressed Baryonic Matter experiment at FAIR; CBM Progress Report 2022, CBM Collaroration; Edito... more Compressed Baryonic Matter experiment at FAIR; CBM Progress Report 2022, CBM Collaroration; Editor Peter Senger, Co-editor Volker Friese; Reviewers: C. Blume, S. Chattopadhyay, J. de Cuveland, I. Deppner, D. Emschermann, V. Friese, J. Heuser, C. Höhne, M. Kis, C. Müntz, I. Selyuzhenkov, P. Senger, C. Sturm, A. Toia; Published 2022 by GSI Helmholtzzentrum für Schwerionenforschung GmbH, Darmstadt, Germany

Elektronika - konstrukcje, technologie, zastosowania, 2023

The series of articles on Biophotonics addresses such issues as: - basic biophotonic terminology ... more The series of articles on Biophotonics addresses such issues as: - basic biophotonic terminology used in scientific, biomedical and technical publications, - biophotonic phenomena and processes, - biophotonic materials, substances and objects, - biophotonic measuring equipment, research methods and laboratory procedures, - principles of bioimaging and optical coherence tomography, - biophotonic quantum technologies, - biospectroscopic techniques, - fluorescence, photoacoustic and superresolution biomicroscopy, - optogenetics, - photodynamic therapy and theranostics, - biophotonic energetics. The main subject of this part are selected laboratory techniques and an overview of various functional and effective varieties of specialized biospectroscopic techniques. Each part of the cycle includes a chapter at the end presenting some examples of current research in the field of biophotonics or new applied pre-clinical and/or clinical methods. The series of articles is a summary of the lecture on quantum biophotonics conducted by the author at the WEiTI PW for PhD students. The lecture emphasises the quantum topical track in biophotonics.

Przegląd Telekomunikacyjny, 2023

Informacyjne Technologie Kwantowe ITK obejmują komputing kwantowy, telekomunikację kwantową, oraz... more Informacyjne Technologie Kwantowe ITK obejmują
komputing kwantowy, telekomunikację kwantową, oraz metrologię
kwantową i synchronizację. Obszary te są ściśle powiązane ze sobą,
gdyż bazują na jednym wspólnym fundamencie zjawisk kwantowych.
Kwantowy kanał informacyjny i proces transmisji w nim informacji
klasycznej i kwantowej jest rodzajem operacji kwantowej, analogicznej
do tej która jest wykonywana w systemach komputingu kwantowego.
W obu przypadkach fundamentem są zasoby kwantowe. Operacje
kwantowe w warunkach rzeczywistych podlegają zakłóceniom wynikłym
z istnienia wybiórczych kanałów dekoherencji i sprzężenia świata
kwantowego z termodynamicznym środowiskiem makro. Stąd, tak
chętnie techniki kwantowe korzystają z fotonów, ponieważ są one stosunkowo
odporne na dekoherencję. Jedną z najbardziej obiecujących
opcji budowy homogenicznych systemów kwantowych obejmujących
komputing i teleinformatykę stanowi fotonika kwantowa, odmienna od
fotoniki klasycznej. Nie jest to jednak obecnie metoda najprostsza. Na
drodze realizacji takiego homogenicznego systemu konieczne są badania,
testy, innowacje i budowa funkcjonalnych urządzeń, systemów
i aplikacji zapewniających odpowiedni poziom cyberbezpieczeństwa
kwantowego. Przestawienie opcji rozwoju telekomunikacji i komputingu
na kwanty wymaga koordynacji na poziomie globalnym, tutaj
mówimy o poziomie europejskim, dużych programów badawczych,
projektów wspomagających kluczowe kierunki rozwojowe, współdziałania
z inicjatywami krajowymi i biznesowymi

Elektronika - konstrukcje, technologie, zastosowania, 2023

Classical and Quantum Biophotonics – substances, phenomena, instruments Part 2 – materials, biosu... more Classical and Quantum Biophotonics
– substances, phenomena, instruments
Part 2 – materials, biosubstances, objects
Biophotonics is an area at the intersection of life and light sciences.
Compared to other areas, it is a relatively new discipline.
It covers the use of light as an energy source enabling basic
research and development of applications in biological, pharmaceutical,
environmental, agricultural and medical sciences. The
term biophotonics and its currently broad thematic approach
has been used relatively recently, but still for several decades.
The combination of the light and the biology is much older. Many
significant milestones in its early and recent developments can be
listed, starting with the simplest microscopy techniques, focused
beam phototherapy, and then the discovery and development
of the green fluorescent protein, the development of super-resolution
fluorescence microscopy, optical tweezers and their
applications in biology, broadband spectroscopic techniques
in the UV-VIS-IR-MIR spectrum, pulse oximetry and other optical
diagnostic techniques, various imaging methods, including
optical coherence tomography. Biophotonics is the development
of diagnostic and therapeutic techniques in dermatology, ophthalmology
- treatment of diabetic retinopathy, photodynamic
therapy and its development in the field of photoimmunotherapy.
Techniques of neuromodulation and optical nanomanipulation
include optogenetics and non-genetic methods of photostimulation.
Biophotonics includes nanomachines/molecular nanorobots
powered and controlled by light. Biophotonics is correlated with
photobiology, biomedical physics and engineering, photo-electro-
-biochemistry, as well as with quantum information techniques,
e.g. through techniques such as ghost-imaging or drug discovery.
Biophotonics to complex laboratory, biomedical but also
industrial equipment.

International Journal of Electronics andTelecommunications, 2024

Elektronika - konstrukcje, technologie, zastosowania, 2024

Przegląd Telekomunikacyjny, 2024

Elektronika - konstrukcje, technologie, zastosowania, 2023

Elektronika - konstrukcje, technologie, zastosowania, 2024

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics. It is a research and application area covering phenomena and processes, substances, objects in the size scale from nanometers to macro, such as viruses, molecules, organelles, cells, bacteria, membranes, tissues, small and larger organisms, in terms of their photonic properties. Biophotonics includes research and standardized clinical and general-purpose laboratory instrumentation. An active direction in the development of biophotonics is its quantum branch, where processes that occur at the nanoscale are studied. The interest in these nanoprocesses, either containing a photonic phenomenon or studied with photonic methods, stems from the fact that they often constitute the foundation of processes that occur and are later reflected in the macroscale of the entire biological object. The series of articles on biophotonics is an abbreviation of a lecture delivered by the author at the Faculty of Electronics and Information Technology of the Warsaw University of Technology for M.Sc. and PhD students. This part of the series deals with optogenetics. The previous parts concerned research areas and correlations of biophotonics with related disciplines, biophotonic processes, photo-biosubstances, objects, spectroscopy, biophotonic laboratory assays and techniques.

Elektronika - konstrukcje, technologie, zastosowania, 2023

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics. It is a research and application area covering phenomena and processes, substances, objects in the size scale from nanometers to macro, such as viruses, molecules, organelles, cells, bacteria, membranes, tissues, small and larger organisms, in terms of their photonic properties. Biophotonics includes research and standardized clinical and general-purpose laboratory instrumentation. An active direction in the development of biophotonics is its quantum branch, where processes that occur at the nanoscale are studied. The interest in these nanoprocesses, either containing a photonic phenomenon or studied with photonic methods, stems from the fact that they often constitute the foundation of processes that occur and are later reflected in the macroscale of the entire biological object. The series of articles on biophotonics is an abbreviation of a lecture delivered by the author at the Faculty of Electronics and Information Technology of the Warsaw University of Technology for PhD students. This part of the series deals with the issues of near field and SPM bio-imaging. The previous parts concerned research areas and correlations of biophotonics with related disciplines, biophotonic processes, photo-biosubstances, objects, spectroscopy, biophotonic laboratory assays and techniques.

Elektronika - konstrukcje, technologie, zastosowania, 2023

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics. It is a research and application area covering phenomena and processes, substances, objects in the size scale from nanometers to macro, such as viruses, molecules, organelles, cells, bacteria, membranes, tissues, small and larger organisms, in terms of their photonic properties. Biophotonics includes research and standardized clinical and general-purpose laboratory instrumentation. An active direction in the development of biophotonics is its quantum branch, where processes that occur at the nanoscale are studied. The interest in these nanoprocesses, either containing a photonic phenomenon or studied with photonic methods, stems from the fact that they often constitute the foundation of processes that occur and are later reflected in the macroscale of the entire biological object. The series of articles on biophotonics is an abbreviation of a lecture delivered by the author at the Faculty of Electronics and Information Technology of the Warsaw University of Technology for PhD students. This part of the series deals with the issues of nonlinear, multiphoton, near field and SPM bio-imaging. The previous parts concerned research areas and correlations of biophotonics with related disciplines, biophotonic processes, photo-biosubstances, objects, spectroscopy, biophotonic laboratory assays and techniques.

Elektronika - konstrukcje, technologie, zastosowania, 2023

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics.
It is a research and application area covering phenomena and
processes, substances, objects in the size scale from nanometers
to macro, such as viruses, molecules, organelles, cells, bacteria,
membranes, tissues, small and larger organisms, in terms of their
photonic properties. Biophotonics includes research and standardized
clinical and general-purpose laboratory instrumentation. An
active direction in the development of biophotonics is its quantum
branch, where processes that occur at the nanoscale are studied.
The interest in these nanoprocesses, either containing a photonic
phenomenon or studied with photonic methods, stems from
the fact that they often constitute the foundation of processes
that occur and are later reflected in the macroscale of the entire
biological object. The series of articles on biophotonics is an
abbreviation of a lecture delivered by the author at the Faculty
of Electronics and Information Technology of the Warsaw University
of Technology for PhD students. This part of the series
deals with the issues of photoacoustics, thermoacoustics and
photothermal imaging. The previous parts concerned research
areas and correlations of biophotonics with related disciplines,
biophotonic processes, photo-biosubstances, objects, spectroscopy,
biophotonic laboratory assays and techniques.

Elektronika - konstrukcje, technologie, zastosowania, 2023

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics.
It is a research and application area covering phenomena and
processes, substances, objects in the size scale from nanometers
to macro, such as viruses, molecules, organelles, cells, bacteria,
membranes, tissues, small and larger organisms, in terms of their
photonic properties. Biophotonics includes research and standardized
clinical and general-purpose laboratory instrumentation. An
active direction in the development of biophotonics is its quantum
branch, where processes that usually occur at the nanoscale
are studied. The interest in these nanoprocesses, either containing
a photonic phenomenon or studied with photonic methods,
stems from the fact that they often constitute the foundation of
processes that occur and are later reflected in the macroscale
of the entire biological object. The series of articles on biophotonics
is an abbreviation of a lecture given by the author at the
Faculty of Economics and Information Technology of the Warsaw
University of Technology for PhD students. The next part of the
series deals with the issues of biochemical imaging combining
domains of time, space, energy, biochemistry and biophysics.
The previous parts concerned research areas and correlations
of biophotonics with related disciplines, biophotonic processes,
photo-biosubstances, objects, spectroscopy, biophotonic laboratory
techniques.

Elektronika - konstrukcje, technologie, zastosowania, 2023

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics.
It is a research and application area covering phenomena and
processes, substances, objects in the size scale from nanometers
to macro, such as viruses, molecules, organelles, cells, bacteria,
membranes, tissues, small and larger organisms, in terms of their
photonic properties. Biophotonics includes research and standardized
clinical and general-purpose laboratory instrumentation. An
active direction in the development of biophotonics is its quantum
branch, where processes that usually occur at the nanoscale are
studied. The interest in these nanoprocesses, either containing a
photonic phenomenon or studied with photonic methods, stems
from the fact that they often constitute the foundation of processes
that occur and are later reflected in the macroscale of the
entire biological object. The series of articles on biophotonics is
an abbreviation of a lecture given by the author at the Faculty of
Economics and Information Technology of the Warsaw University
of Technology for PhD students. The next part of the series deals
with the issues of super-resolution imaging, breaking the Abbe
diffraction limit. The previous parts concerned research areas and
correlations of biophotonics with related disciplines, biophotonic
processes, photo-biosubstances, objects, spectroscopy, biophotonic
laboratory techniques.

International Journal of Electronics and Telecommunications, 2023

Przegląd Telekomunikacyjny, 2023

Elektronika - konstrukcje, technologie, zastosowania, 2023

Biophotonics is a field on the border of biology and photonics. It is a research and application ... more Biophotonics is a field on the border of biology and photonics.
It is a research and application area covering phenomena and
processes, substances, objects in the size scale from nanometers
to macro, such as viruses, molecules, organelles, cells, bacteria,
membranes, tissues, small and larger organisms, in terms of their
photonic properties. Biophotonics includes research and standardized
clinical and general-purpose laboratory instrumentation. An
active direction in the development of biophotonics is its quantum
branch, where processes that usually occur at the nanoscale
are studied. The interest in these nanoprocesses, either containing
a photonic phenomenon or studied with photonic methods,
stems from the fact that they often constitute the foundation of
processes that occur and are later reflected in the macroscale
of the entire biological object. The series of articles on biophotonics
is an abbreviation of a lecture given by the author at the
Faculty of Economics and Information Technology of the Warsaw
University of Technology for PhD students. The next part of the
series deals with the general issues of super-resolution imaging.
The previous parts concerned research areas and correlations
of biophotonics with related disciplines, biophotonic processes,
photo-biosubstances, objects, spectroscopy, biophotonic laboratory
techniques.

International Journal of Electronics and Telecommunications, 2023

CBM Progress Report 2022, 2023

Elektronika - konstrukcje, technologie, zastosowania, 2023

Przegląd Telekomunikacyjny, 2023

Elektronika - konstrukcje, technologie, zastosowania, 2023

Proceedings of SPIE, vol.13400, 2024

Wilga Symposium used to be a multidisciplinary and multi-conference meeting of young scientists a... more Wilga Symposium used to be a multidisciplinary and multi-conference meeting of
young scientists and engineers. Wilga meetings and workshops aimed primarily at
Ph.D. students and freshly graduated researchers. It was organized since 1995 two
times a year, featuring winter and spring/summer editions. Since 2002 Wilga papers
are published in the Proceedings of SPIE. The major topical track of Wilga used to
be Photonics Applications. This track was extended to related fields and embraced
coupling of photonics to other subjects like mechatronics, optoelectronics, laser
technologies, electronics, communications, image processing, and information
technologies.

Proceedings of SPIE, vol.12040 (November 2021) , 2021

Wilga 2021 Summer Symposium on Photonics Applications and Web Engineering was the 48th edition of... more Wilga 2021 Summer Symposium on Photonics Applications and Web Engineering was the 48th edition of the research and technical meetings series [1,2]. Traditionally, the whole week lasting annual series of technical conferences and topical sessions was scheduled to be held on 26 May – 02 June 2020 in Wilga resort near Warsaw, owned by the Warsaw University of Technology. Nearly 150 participants took part in all of the Wilga 2021 events, most of them being young researchers active in all aspects of photonics, electronics and ICT science and technology. Wilga Symposium also embraces hardware and software technologies associated with photonics like optics, optical engineering, optoelectronics, electronics and electrical engineering, mechatronics, chemical and material engineering, applied physics, industrial solutions and applications. Around 100 papers were presented during Wilga 2021, oral and poster. Out of this number, some papers chosen by authors are published in this volume of Proc. SPIE mostly related to photonics. The major change was that during Wilga 2020 and 2021 Symposia, during summer editions, no traditional large young researcher sessions at large were possible to be organized.

Photonics Applications in Astronomy, Communications, Industry, and High Energy Physics Experiments 2020, Proc.SPIE 11581, 2020

Photonics Applications in Astronomy, Communications, Industry, and High Energy Physics Experiment... more Photonics Applications in
Astronomy, Communications,
Industry, and High Energy
Physics Experiments 2020,
Proc.SPIE 11581, October 2020;

Ryszard S. Romaniuk
Maciej Linczuk
Editors
31 August – 6 September 2020
Wilga, Poland
Organized by
Institute of Electronic Systems, Faculty of Electronics and Information Technologies, Warsaw
University of Technology (Poland)
Sponsored by
PSP—Photonics Society of Poland • Committee of Electronics and Telecommunications of Polish
Academy of Sciences • ARIES—Accelerator Research and Innovation for European Science and
Society (CERN, EU H2020) • PKOpto—Polish Committee of Optoelectronics of SEP, The Association
of Polish Electrical Engineers• EuroFusion Poland
Published by SPIE

Systemy Informatyczne Jako Fundament Przedsiębiorstwa 4.0, Rozdział 1 w monografii: Technologie Cyfrowe w Biznesie; Przedsiębiorstwa 4.0 a Sztuczna Inteligencja, Bogdan Gregor, Dominika Kaczorowska-Spychalska (Redakcja naukowa); Wydawnictwo Naukowe PWN SA, Warszawa, Poland, October 2020; , 2020

Systemy Informatyczne Jako Fundament Przedsiębiorstwa 4.0 (Information Systems as the Foundation ... more Systemy Informatyczne Jako Fundament Przedsiębiorstwa 4.0 (Information Systems as the Foundation of Enterprise 4.0);
Rozdział 1 w monografii: Technologie Cyfrowe w Biznesie; Przedsiębiorstwa 4.0 a Sztuczna Inteligencja, Bogdan Gregor, Dominika Kaczorowska-Spychalska (Redakcja naukowa);
Wydawnictwo Naukowe PWN SA, Warszawa, Poland, October 2020;

Anna Cysewska-Sobusiak, Joanna Parzych, Optoelektronika i Fotonika, Zagadnienia wybrane; Wydawnictwo Politechniki Poznańskiej 2020; (dedykacja autorki), 2020

Anna Cysewska-Sobusiak, Joanna Parzych, Optoelektronika i Fotonika, Zagadnienia wybrane; (dedykac... more Anna Cysewska-Sobusiak, Joanna Parzych, Optoelektronika i Fotonika, Zagadnienia wybrane; (dedykacja autorki);
Wydawnictwo Politechniki Poznańskiej 2020;

Rozdział 1. Wstęp ………………………………………..…4
Rozdział 2. Przedmiot oraz znaczenie optoelektroniki i fotoniki .……6
Rozdział 3. Cechy promieniowania optycznego i analogie elektrooptyczne 10
3.1. Właściwości promieniowania elektromagnetycznego
3.2. Specyfika i znaczenie optycznych sygnałów pomiarowych
3.3. Metodyka pomiarów optoelektronicznych
Rozdział 4. Emisja, detekcja i transmisja sygnałów optycznych 25
4.1. Źródła promieniowania optycznego ……………………………
4.1.1. Wprowadzenie …………………………………………………..
4.1.2. Diody elektroluminescencyjne ………………………………….
4.1.3. Lasery i diody laserowe …………………………………….…...
4.2. Odbiorniki promieniowania optycznego ……………………….
4.2.1. Wprowadzenie …………………………………………………..
4.2.2. Półprzewodnikowe fotodetektory złączowe: fotodiody, fotoo-gniwa i fototranzystory ………………………………………......
4.2.3. Fotorezystory ……………………………………………………...
4.2.4. Matryce światłoczułe ……………………………………………..
4.3. Światłowody ……………………………………………………...
4.3.1. Wprowadzenie …………………………………………………..
4.3.2. Cylindryczne światłowody włókniste ………………………..…
4.3.4. Światłowody fotoniczne i kapilarne …………………………….
4.4. Inne wybrane elementy optoelektroniczne .………………………
Rozdział 5. Podsumowanie …………126
Literatura …………………………………………128
Wybrane pojęcia, oznaczenia i stałe ……137

CBM Progress Report 2019, 2020

The exploration of the QCD phase diagram at high net-baryon densities is one of the most fascinat... more The exploration of the QCD phase diagram at high net-baryon densities is one of the most fascinating aspects
of modern nuclear physics, as it links laboratory heavy-ion collisions to cosmic objects and phenomena like
neutron stars, supernova explosions, and neutron star mergers. Moreover, accelerator based experiments have
the potential to unravel the microscopic degrees-of-freedom of strongly interaction matter at high density,
which may undergo phase transitions, featuring phase coexistence and a critical endpoint. The mission of the
CBM experiment is to shed light on the nature of high-density QCD matter by investigating diagnostic probes,
which never have been measured before in the FAIR energy range, where the highest net-baryon densities will
be created.

Proceedings of SPIE 11456, 2020

Symposium on “Optical Fibers and Their Application” OFTA is a forum of national science in this b... more Symposium on “Optical Fibers and Their Application” OFTA is a forum of national
science in this branch of Photonics. The Symposium also hosts numerable guests
from this geographical region, and especially from neighboring countries and
Europe. It is organized every year and a half by two major optical fiber technology
and application development centers located in Białystok at Białystok University of
Technology, and in Lublin at Maria Curie-Skłodowska University UMCS and the
Technical University of Lublin. The conference belongs to a bigger circle of national
meetings on optoelectronics, optics, photonics, sensors and laser technology
which are under a general patronage of professoressional community
organizations like the Polish Physical Society – Section of Optics, the Polish Ceramic
Society, the Photonics Society of Poland, Polish Optoelectronics Committee of the
Association of Polish Electrical Engineers, Section of Photonics in the Committee of
Electronics and Telecommunications, Polish Academy of Sciences, and Polish
Association of Theoretical and Applied Electrical Engineering.

Compressed Baryonic Matter experiment at FAIR - Progress Report 2018, 2019

An experimental project like CBM necessarily comprises a vast number of activities in many differ... more An experimental project like CBM necessarily comprises a vast number of activities in many different areas:
research on detector technology, development of readout electronics and components for data acquisition,
computing and software tools for data processing and physics analysis, and many more. The series of annual
CBM Progress Reports, started back in 2006, was intended to collect and document these manifold activities.
Browsing through the past volumes unfolds a large spectrum of scientific work in the process of the realization
of the project: fromconceptual studies over thoroughR&Dto the implementation and testing of prototypes.
This CBM Progress Report 2018 continues along these lines. Its contents, however, reflect that some six years
before the planned start of data taking, the CBM project is undergoing a gradual transition. The long period of
planning and R&D is giving way to the large-scale production and integration of detector hardware, a process
to be finished by 2024, when the CBM apparatus is expected to be commissioned in its experimental area. An
important step towards this realisation of the experiment is the full-system test setup mCBM, allowing to study
the joint in-beam operation of several detector systems and the read-out and data processing, following the
ambitious CBM concept of free-running data acquisition. Further important technological experience is gained
by the deployment of CBM detector systems at running experiments: TOF in STAR, RICH in HADES, PSD in
BM@N. These detector operations will contribute important technological expertise for the preparation of the
full CBM experiment.
We hope this reports conveys some of the enthusiasm of the CBM collaboration in the realization of a technologically
very challenging experimental project which promises a rich physics output once taking data. Our
thanks go to all who have contributed to this report: the reviewers, who helped getting it into shape, and all
authors having delivered the actual content.
Darmstadt, October 2019
Volker Friese and Ilya Selyuzhenkov, editors

Proceedings of SPIE, vol.11176; , 2019

Wilga 2019, which was the 44th edition of the meeting, was a continuation of the symposium develo... more Wilga 2019, which was the 44th edition of the meeting, was a continuation of the symposium development tendency which started around 5 years ago. The Symposium again has gathered more than 350 participants, with nearly 300 presentations oral and poster. Most of the papers were published in this volume of Proc.SPIE. Some of the presentations will be published in archival journals on photonics including the International Journal of Electronics and Telecommunications by Polish Academy of Sciences. One of the observed positive tendencies is broadening area of photonics applications beyond the classical fields of research interests like communications, sensing and information processing. These include manufacturing industries, mechanical engineering and robotics, as well as intelligent infrastructures, smart environments, security and safety. The interest in these fields is reflected by the increased number of Ph.D. theses realized in these fields and reported during the 2019 Wilga Symposium. Yet another tendency of Wilga Symposium development is the increased interest of the industry in cooperation with young photonics researchers.

Proceedings of SPIE, vol. 11054, 2019

Superconductivity and Particle Accelerator (SPAS) conference is devoted to research in the domain... more Superconductivity and Particle Accelerator (SPAS) conference is devoted to research in the domain of superconductivity
and its applications in science, as well as on research in the field of particle accelerators, conducted in Polish research
institutions as well as by Polish scientists working in the international laboratories. The objective of SPAS conference is
to identify current and potential areas of research in superconductivity and particle accelerators, developed and possible
to develop in Poland and to determine the needs in the infrastructure to support this research. The SPAS’2018 program
included all main areas related to the superconductivity and accelerators, and also included a task of challenges in
thermonuclear projects, which are non-accelerator project but related to the superconductivity and superconducting
technology developed for accelerators. Another interesting subjects presented during conference were the Rapid Single
Quantum Flux electronics which uses Josephson junctions and could be possible used in superconducting quantum
computer, and lead-free materials that could substitute materials containing lead in its composition.

Proceedings of SPIE 11045, 2019

The Optical Fibers and Their Applications 2018 conference is a forum of national science in this ... more The Optical Fibers and Their Applications 2018 conference is a forum of national
science in this branch of Photonics. The conference usually hosts numerable guests
from this geographic region, especially from Ukraine, Belarus and Kazakhstan. It is
organized every year and a half by two major optical fiber technology and
application centers located in Białystok at Białystok University of Technology, and
in Lublin, at Maria Curie-Skłodowska University and Technical University of Lublin.
The conference belongs to a bigger circle of national conferences on
optoelectronics, optics, photonics, sensors and laser technology, which are under
the general patronage of professional community organizations like the Polish
Ceramic Society, Photonics Society of Poland, Polish Optoelectronics Committee
of the Association of Polish Electrical Engineers, and the Section of Optoelectronics
in the Committee of Electronics and Telecommunications, Polish Academy of
Sciences.

Proceedings of SPIE 10974, 2018

Laser Technology (SLT 2018) was the twelfth symposium in a periodic series that deals with advanc... more Laser Technology (SLT 2018) was the twelfth symposium in a periodic series that
deals with advances in the state-of-the-art of laser technology and applications
in Poland. Historically this series of symposia has evolved since 1984, due to the
work of the Committee of Electronics and Telecommunication of the Polish
Academy of Sciences, the Polish Committee of Optoelectronics of the
Association of Polish Electrical Engineers, and the support of relevant universities.

Światłowody i Ich Zastosowanie, VI Krajowa Konferencja, Tom 2, Białystok - Białowieża 1998, 1999

Jan Dorosz, Ryszard Romaniuk (Red.), VI Krajowa Konferencja Światłowody i Ich Zastosowania, Tom 2... more Jan Dorosz, Ryszard Romaniuk (Red.), VI Krajowa Konferencja Światłowody i Ich Zastosowania, Tom 2, Białystok - Białowieża, 22-24 stycznia 1998;
Polska Akademia Nauk, Komitet Elektroniki i Telekomunikacji, Sekcja Optoelektroniki; Huta Szkła "Biaglass",;
Instytut Optoelektroniki, Wojskowa Akademia Techniczna;
Polski Komitet Optoelektroniki, Stowarzyszenie Elektryków Polskich;
Polska Sekcja SPIE - The International Society for Optical |Engineering, Bellingham, WA USA;
ISBN: 83-86272-79-1
str. 1-324;

Światłowody i Ich Zastosowanie, VI Krajowa Konferencja, Tom 1, Białystok - Białowieża 1998, 1998

Jan Dorosz, Ryszard Romaniuk (Red.), VI Krajowa Konferencja Światłowody i Ich Zastosowania, Tom 1... more Jan Dorosz, Ryszard Romaniuk (Red.), VI Krajowa Konferencja Światłowody i Ich Zastosowania, Tom 1, Białystok - Białowieża, 22-24 stycznia 1998;
Polska Akademia Nauk, Komitet Elektroniki i Telekomunikacji, Sekcja Optoelektroniki; Huta Szkła "Biaglass",;
Instytut Optoelektroniki, Wojskowa Akademia Techniczna;
Polski Komitet Optoelektroniki, Stowarzyszenie Elektryków Polskich;
Polska Sekcja SPIE - The International Society for Optical |Engineering, Bellingham, WA USA;
ISBN: 83-86272-79-1
str. 1-335;

Optical Fibers and Their Applications, Vth National Symposium, Vol.4, Warsaw 1989, 1989

Mieczysław Szustakowski, Ryszard Romaniuk (edit.), Optical Fibers and Their Applications, Vth Nat... more Mieczysław Szustakowski, Ryszard Romaniuk (edit.), Optical Fibers and Their Applications, Vth National Symposium, Vol.4, Palace of Culture and Science, Warsaw 1989; pp.1-185

Światłowody i Ich Zastosowania, V Krajowe Sympozjum, Tom 3 - Część 2, Warszawa 1989, 1989

Mieczysław Szustakowski, Ryszard Romaniuk, (Red.), Światłowody i Ich Zastosowania, V Krajowe Symp... more Mieczysław Szustakowski, Ryszard Romaniuk, (Red.), Światłowody i Ich Zastosowania, V Krajowe Sympozjum, Tom 3 - Część 2, Pałac Kultury i Nauki, Warszawa, 21-23 lutego 1989

Światłowody i Ich Zastosowania, V Krajowe Sympozjum, Tom 3 - Część 1, Warszawa 1989, 1989

Mieczysław Szustakowski, Ryszard Romaniuk, (Red.), Światłowody i Ich Zastosowania, V Krajowe Symp... more Mieczysław Szustakowski, Ryszard Romaniuk, (Red.), Światłowody i Ich Zastosowania, V Krajowe Sympozjum, Tom 3 - Część 1, Pałac Kultury i Nauki, Warszawa, 21-23 lutego 1989

Światłowody i Ich Zastosowania, V Krajowe Sympozjum, Tom 2, Pałac Kultury i Nauki, Warszawa, 21-23 lutego 1989, 1989

Mieczysław Szustakowski, Ryszard Romaniuk (Red.), Światłowody i Ich Zastosowania, V Krajowe Sympo... more Mieczysław Szustakowski, Ryszard Romaniuk (Red.), Światłowody i Ich Zastosowania, V Krajowe Sympozjum, Tom 2, Pałac Kultury i Nauki, Warszawa, 21-23 lutego 1989

Światłowody i Ich Zastosowania, V Krajowe Sympozjum, Tom 1, 1989, 1989

Mieczysław Szustakowski, Ryszard Romaniuk (Red.), Światłowody i Ich Zastosowania, V Krajowe Sympo... more Mieczysław Szustakowski, Ryszard Romaniuk (Red.), Światłowody i Ich Zastosowania, V Krajowe Sympozjum, Tom 1, Pałac Kultury i Nauki, Warszawa, 21-23 lutego 1989, Polska Akademia Nauk, Komitet Elektroniki i Telekomunikacji ;

Spis treści,
Materiały, technologia i teoria światłowodów włóknistych,
Elementy i układy optoelektroniczne,
Optoelektronika zintegrowana,
Czujniki światłowodowe,

Od Redakcji,
Alfabetyczny spis autorów;

Optical Fibres and Their Applications, Vol. A, Fifth National Symposium, Warsaw, Palace of Culture and Science, 1989, 1989

M.Szustakowski, R.Romaniuk (Editors), Optical Fibres and Their Applications, Vol. A, Fifth Nation... more M.Szustakowski, R.Romaniuk (Editors), Optical Fibres and Their Applications, Vol. A, Fifth National Symposium, Warsaw, 21-23 February 1989;
Palace of Culture and Science
Volume of Abstracts (A)
Committee of Electronics and Telecommunications, Polish Academy of Sciences, Acceptance of Symposium Scientific Committee, prof.Alfred Świt, prof. Adam Smoliński, prof.Bohdan Paszkowski;
Susanne R. Nagel, Fifth National Symposium on Optical Fibers and Their Applications, 21-23 February 1989, Warsaw, Poland, IEEE LEOS Newsletter, vol. 3, No. 2, June 1989, Laser and Electro-Optics Society;
Fifth Symposium on Optical Fibres and Their Applications, Warsaw, Poland, Optical Engineering, Nay 1988, Vol. 27, No. 5, SR-103; Announcement

I Krajowe Sympozjum Światłowody Nietelekomunikacyjne, Białystok - Białowieża, 23 - 25 września 1982, 1982

Jan Dorosz, Ryszard Romaniuk (Red.), I Krajowe Sympozjum Światłowody Nietelekomunikacyjne, Białys... more Jan Dorosz, Ryszard Romaniuk (Red.), I Krajowe Sympozjum Światłowody Nietelekomunikacyjne, Białystok - Białowieża, 23 - 25 września 1982;
Polska Akademia Nauk, Komitet Elektroniki i Telekomunikacji,
Politechnika Warszawska,
Huta Szkła Białystok

III Krajowa Szkoła Optoelektroniki, Materiały i Technologie Światłowodowe, 1989

Program, III Krajowa Szkoła Optoelektroniki, Materiały i Technologie Światłowodowe, Kazimierz nad... more Program, III Krajowa Szkoła Optoelektroniki, Materiały i Technologie Światłowodowe, Kazimierz nad Wisłą, 17-21kwietnia 1989;
Uniwersytet Marii Curie-Skłodowskiej w Lublinie,
Ośrodek Techniki Optotelekomunikacyjnej w Lublinie,
KEiT Polska Akademia Nauk

LASER 89, Munich 5-9 Juni 1989 , 1989

Special optical fibres, LASER 89, Optoelectronics in Engineering, Munich 5-9 Juni 1989

II Konferencja Optoelektroniczna "Optoelektronika kluczem do bezpieczeństwa i lepszego życia obywateli", 2016

II Konferencja Optoelektroniczna "Optoelektronika kluczem do bezpieczeństwa i lepszego życia obyw... more II Konferencja Optoelektroniczna "Optoelektronika kluczem do bezpieczeństwa i lepszego życia obywateli";
Rawa Mazowiecka 12-13.10.2016 r.
Przemysłowe Centrum Optoelektroniki PCO SA,
Polska Platforma Technologiczna Fotoniki PPTF,
Wojskowa Akademia Techniczne,
Politechnika Warszawska,

III Konferencja Optoelektroniczna "Optoelektronika ważnym elementem strategii zrównoważonego rozwoju państwa"; Jachranka, Serock, 8-9 listopada 2017 r. , 2017

III Konferencja Optoelektroniczna "Optoelektronika ważnym elementem strategii zrównoważonego rozw... more III Konferencja Optoelektroniczna "Optoelektronika ważnym elementem strategii zrównoważonego rozwoju państwa";
Jachranka, Serock, 8-9 listopada 2017 r.
Przemysłowe Centrum Optoelektroniki PCO SA
Polska Platforma Technologiczna Fotoniki PPTF
Wojskowa Akademia Techniczna
Politechnika Warszawska

The VIth International FIBER OPTICS and Communications Exposition, Los Angeles, September 15-17, 1982; Conference Program, 1982

R.S.Romaniuk, J.Dorosz, I.U.Romaniuk, L.Kociszewski, J.Maciejewski, A.Mioduszewska, The VIth Inte... more R.S.Romaniuk, J.Dorosz, I.U.Romaniuk, L.Kociszewski, J.Maciejewski, A.Mioduszewska, The VIth International FIBER OPTICS and Communications Exposition, Los Angeles, September 15-17, 1982;
Conference Program

XI Konferencja Naukowo - Techniczna: Systemy Rozpoznania i Walki Radioelektronicznej; pod patronatem Szefa Sztabu Generalnego Wojska Polskiego; Ołtarzew, 21-23 listopada 2016 r.; Komitet Programowy, 2016

XI Konferencja Naukowo - Techniczna: Systemy Rozpoznania i Walki Radioelektronicznej; pod patrona... more XI Konferencja Naukowo - Techniczna: Systemy Rozpoznania i Walki Radioelektronicznej;
pod patronatem Szefa Sztabu Generalnego Wojska Polskiego;
Ołtarzew, 21-23 listopada 2016 r.;
Komitet Programowy

IX Sympozjum Techniki Laserowej 2009; Szczecin - Świnoujście, 21-25 września 2009; , 2009

IX Sympozjum Techniki Laserowej 2009; Szczecin - Świnoujście, 21-25 września 2009;

XVI Krajowa Konferencja Elektroniki, KKE2017 Darłówko, 05-09.06.2017, 2017

XVI Krajowa Konferencja Elektroniki, KKE2017 Darłówko, 05-09.06.2017 Komitety Naukowy i Organiz... more XVI Krajowa Konferencja Elektroniki, KKE2017
Darłówko, 05-09.06.2017
Komitety Naukowy i Organizacyjny

XIth Sympozjum Techniki Laserowej; 27-30 września 2016, Jastarnia

Światłowody i Ich Zastosowania 2009

Xth Sympozjum Techniki Laserowej 2012; Szczecin - Świnoujście, 24-28 września 2012, 2012

Xth Sympozjum Techniki Laserowej 2012; Szczecin - Świnoujście, 24-28 września 2012

XL IEEE-SPIE Joint Symposium WILGA 2017 on Photonic and Electronic Systems for High Energy Physics and Astroparticle Experiments , 2017

W.M.Zabołotny, G.H.Kasprowicz, A.P.Byszuk, D.Emschermann, M.Gumiński, K.T.Pozniak, R.S.Romaniuk, ... more W.M.Zabołotny, G.H.Kasprowicz, A.P.Byszuk, D.Emschermann, M.Gumiński, K.T.Pozniak, R.S.Romaniuk, Selection of hardware platform for CBM Common Readout Interface,
XL IEEE-SPIE Joint Symposium WILGA 2017 on Photonic and Electronic Systems for High Energy Physics and Astroparticle Experiments

Jan Jabczyński, Ryszard Romaniuk, Laser Technology 2016: Progress and Application of Lasers, Proc. SPIE 10159, 2016

Laser Technology (SLT 2016) was the eleventh symposium in a periodical series that deals with ad... more Laser Technology (SLT 2016) was the eleventh symposium in a periodical series
that deals with advances in the state-of-the-art of laser technology and
applications in Poland. This symposia series has evolved since 1984 due to the
activity of the Committee of Electronics and Telecommunication of the Polish
Academy of Sciences and the support of relevant universities.
The first symposium on laser technology was organized and hosted by the
Nicolaus Copernicus University at Toruń (Poland) and co-organized by Warsaw
University of Technology (Poland), and Military University of Technology (Poland),
and Industrial Center of Optics in Warsaw (Poland). Three volumes of proceedings
were published beginning in June 1984.
Approximately 140 participants attended this symposium from all leading
research laser technology and laser application research centers in academia,
research institutes and industry. Over 120 papers were presented.
The topics of Laser Technology XI were as follows:
Lasers: Yesterday, Today and Tomorrow;
Optical Fibre Lasers; Laser Applications in Research;
New Types of Lasers;
Applications of Lasers in Material Engineering and Nanotechnology;
Industrial Applications of Lasers;
Applications of Lasers in Medicine and Biomedical Engineering;
Application of Lasers in Safety and Defense Systems;
New Laser Materials, Components and Assemblies;
Optical and Laser Measurements;
and Laser Spectroscopy.

Technical Report: IPE PW VI 1996 KBN, 1996

Projekt i wykonanie światłowodowego systemu pomiarowego przeznaczonego do monitoringu stężenia jo... more Projekt i wykonanie światłowodowego systemu pomiarowego przeznaczonego do monitoringu stężenia jonów hydroniowych (pH) w naturalnych ciekach wodnych

CPBR812 X 1987 , 1987

Włókna światłowodowe o niekołowym przekroju rdzenia, CPBR 8.12 - OPTOELEKTRONIKA, X 1987;

BHP w Optoelektronice 1988, 1988

Health and Safety in Optoelectronics; Bezpieczeństwo i Higiena Pracy (BHP) w Optoelektronice; Rap... more Health and Safety in Optoelectronics; Bezpieczeństwo i Higiena Pracy (BHP) w Optoelektronice; Raport Techniczny Centralnego Programu Badawczo Rozwojowego OPTOELEKTRONIKA - Rozwój Materiałów i Elementów Bazowych - CPBR 8.12.; Instytut Podstaw Elektroniki, Wydział Elektroniki, Politechnika Warszawska; Ryszard Romaniuk, Centrum Medyczne Kształcenia Podyplomowego (CMKP), Warszawa, Klinika Okulistyczna; Irena U. Romaniuk,

Optical Fiber Submarine Communications 1986, 1986

Optical Fiber Submarine Communications; Światłowodowa Telekomunikacja Podmorska; Ryszard S Romani... more Optical Fiber Submarine Communications; Światłowodowa Telekomunikacja Podmorska; Ryszard S Romaniuk, Raport Techniczny dla Ministerstwa Łączności, X 1986, Polski Komitet Optoelektroniki, Stowarzyszenie Elektryków Polskich; Wydział Elektroniki, Politechnika Warszawska, Instytut Podstaw Elektroniki, Komitet Elektroniki i Telekomunikacji, Polska Akademia Nauk;

Fiber Optics in Harsh and Industrial Environments, SPIE, San Diego, August 1987, 1987

SPIE Symposium on Fiber Optics and Integrated Optoelectronics, San Diego, CA USA, 16-21 August 19... more SPIE Symposium on Fiber Optics and Integrated Optoelectronics, San Diego, CA USA, 16-21 August 1987, Roger Greenwell, Science and Engineering Associates, Inc., Ryszard Romaniuk, Warsaw University of Technology, Tutorial F19

Fiber Optics and Integrated Optoelectronics, San Diego 1987, 1987

SPIE's O-E/Fibers'87; A Symposium on Fiber Optics and Integrated Optoelectronics, 16-21 August 19... more SPIE's O-E/Fibers'87; A Symposium on Fiber Optics and Integrated Optoelectronics, 16-21 August 1987, San Diego, CA USA; Ryszard S. Romaniuk, Technical Report to The Polish Optoelectronics Committee, Association of Polish Electrical Engineers; Committee of Electronics and Telecommunications, Polish Academy of Sciences;

Optical and Optoelectronic Applied Science and Engineering, The Hague 1987, 1987

Optical and Optoelectronic Applied Science and Engineering, Fourth International Symposium and In... more Optical and Optoelectronic Applied Science and Engineering, Fourth International Symposium and Instrument Exhibit; ANRT - Association Nationale de la Recherche Technique, SPIE - The International Society for Optical Engineering, The Hague, The Netherlands, 30 March - 3 April 1987; Technical Report by Ryszard S. Romaniuk for the Association of Polish Electrical Engineers (SEP), Polish Optoelectronics Committee of SEP, Committee of Electronics and Telecommunications - Polish Academy of Science (PAN); Warsaw University of Technology, Poland;

Optical Science and Engineering, Hamburg 1988, 1988

The International Congress on Optical Science and Engineering, Hamburg, 19-23 September 1988; EPS... more The International Congress on Optical Science and Engineering, Hamburg, 19-23 September 1988; EPS - European Physical Society, Europtica - The European Federation for Applied Optics, SPIE - The International Society for Optical Engineering; Ryszard S.Romaniuk, Technical Report for: Association of Polish Electrical Engineers, Polish Optoelectronics Committee, Polish Chapter of SPIE, Committee of Electronics and Telecommunications, Polish Academy of Sciences; Cooperation of Polish Optical and Optoelectronics Research Community with SPIE; Contribution of Researchers from Poland;

Optical Sciences and Engineering, Paris 1989, Technical Report for PKOpto SEP, 1989

Optical Sciences and Engineering; The International Congress, Paris 24-28 April 1989; European Ph... more Optical Sciences and Engineering; The International Congress, Paris 24-28 April 1989; European Physical Society, Europtica - The European Federation for Applied Optics, SPIE - The International Society for Optical Engineering,
Technical Report for the Polish Optoelectronics Committee, Association of Polish Electrical Engineers, Committee of Electronics and Telecommunications - Polish Academy of Sciences;

CARE - Coordinated Accelerator Research in Europe: Integrating Activity implemented as Integrated Infrastructure Initiative, CARE Meeting in Warsaw June 2004, 2004

CARE-Coordinated Accelerator Research in Europe: Integrating Activity implemented as Integrated I... more CARE-Coordinated Accelerator Research in Europe: Integrating Activity implemented as Integrated Infrastructure Initiative; CARE Steering Committee and Dissemination Board meeting in Warsaw, 24-25 June 2004, European Union Framework Program FP6

Polish Chapter of SPIE, Bulletin no.1(1), Warsaw 1988, 1988

Polish Chapter of SPIE - The International Society for Optical Engineering, Bellingham, WA USA, W... more Polish Chapter of SPIE - The International Society for Optical Engineering, Bellingham, WA USA, Warsaw Poland, Polska Sekcja SPIE, 1988, Biuletyn no. 1(1), December 1988

Optical and Electro-Optical Applied Science and Engineering, ANRT-SPIE, Cannes 1985; Technical Report for PKOpto SEP, 1985

2nd International Technical Symposium on Optical and Electro-Optical Applied Science and Engineer... more 2nd International Technical Symposium on Optical and Electro-Optical Applied Science and Engineering, Cannes, France, Week A: 25-29 November 1985; Week B: 2 - 6 December 1985; ANRT - Association Nationale de la Recherche Technique, SPIE - The International Society for Optical Engineering, Technical Report for Polish Optoelectronics Committee (PKOpto), Association of Polish Electrical Engineers (SEP); Committee of Electronics and Telecommunications - Polish Academy of Sciences;

Optical and Electro-Optical Engineering, SPIE's 30th Anniversary Symposium, San Diego 1985, Technical Report for the Association of Polish Electrical Engineers, 1985

SPIE's 29th Annual International Technical Symposium on Optical and Electro-Optical Engineering, ... more SPIE's 29th Annual International Technical Symposium on Optical and Electro-Optical Engineering, San Diego, California USA, 18-23 August 1985, [SPIE's 30th Anniversary: 1955-1985]; SPIE - The International Society for Optical Engineering, Bellingham, WA USA; Optical Sciences Center, University of Arizona; Institute of Optics, University of Rochester; Technical Report by Ryszard S.Romaniuk, Warsaw University of Technology, Association of Polish Electrical Engineers, and Section of Optoelectronics Committee of Electronics and Telecommunications, Polish Academy of Sciences;

Europtica and European Optical Society - Poland Contribution 1990-1991, part 3/3, 1990

EUROPTICA - The European Federation for Applied Optics; Optics Division, European Physical Societ... more EUROPTICA - The European Federation for Applied Optics; Optics Division, European Physical Society, European Optical Society, Association of Polish Electrical Engineers - SEP, Polish Committee of Optoelectronics of SEP, Polish Physical Society, Participation of Polish Optical and Photonics Communities in creation of the EOS during 1990-1991; PKOpto SEP, Poland Joint Policy Comission on EUROPTICA and EOS: Katarzyna Chałasińska - Macukow, Andrzej Domański, Zbigniew Jaroszewicz, Małgorzata Kujawińska, Ryszard Romaniuk - Chair, Tomasz Szoplik;
Europtica and European Optical Society - Poland Contribution 1990-1991, part 3/3

EUROPTICA and European Optical Society - Poland Contribution 1990-1991, part 2/3, 1990

EUROPTICA - The European Federation for Applied Optics; Optics Division, European Physical Societ... more EUROPTICA - The European Federation for Applied Optics; Optics Division, European Physical Society, European Optical Society, Association of Polish Electrical Engineers - SEP, Polish Committee of Optoelectronics of SEP, Polish Physical Society, Committee of Electronics and Telecommunications - Polish Academy of Sciences, Participation of Polish Optical and Photonics Communities in creation of the EOS during 1990-1991; PKOpto SEP, Poland Joint Policy Comission on EUROPTICA and EOS: Katarzyna Chałasińska - Macukow, Andrzej Domański, Zbigniew Jaroszewicz, Małgorzata Kujawińska, Ryszard Romaniuk - Chair, Tomasz Szoplik;
EUROPTICA and European Optical Society - Poland Contribution 1990-1991, part 2/3;

Europtica and European Optical Society - Poland Contribution 1990-1991, part 1/3, 1990

EUROPTICA - The European Federation for Applied Optics; Optics Division, European Physical Societ... more EUROPTICA - The European Federation for Applied Optics; Optics Division, European Physical Society, European Optical Society, Association of Polish Electrical Engineers - SEP, Polish Committee of Optoelectronics of SEP, Polish Physical Society, Committee of Electronics and Telecommunications - Polish Academy of Sciences,
Participation of Polish Optical and Photonics Communities in creation of the EOS during 1990-1991; PKOpto SEP, Poland Joint Policy Comission on EUROPTICA and EOS: Katarzyna Chałasińska - Macukow, Andrzej Domański, Zbigniew Jaroszewicz, Małgorzata Kujawińska, Ryszard Romaniuk - Chair, Tomasz Szoplik,

European Conference on Optical Communication, Stuttgart 1984, Technical Report for the Association of Polish Electrical Engineers, 1984

10th ECOC'84; European Conference on Optical Communication, Stuttgart, Germany, 3-6 September 198... more 10th ECOC'84; European Conference on Optical Communication, Stuttgart, Germany, 3-6 September 1984; Ryszard S Romaniuk, Technical Report for the Association of Polish Electrical Engineers (SEP), and for the Polish Optoelectronics Research and Technical Communities; Warsaw University of Technology, Poland; Committee of Electronics and Telecommunications, Polish Academy of Sciences;

Optical Fiber Sensors 1984, Technical Report for the Association of Polish Electrical Engineers, 1984

2nd International Conference on Optical Fiber Sensors, Stuttgart, Germany, 5-7 September 1984; Ry... more 2nd International Conference on Optical Fiber Sensors, Stuttgart, Germany, 5-7 September 1984; Ryszard S Romaniuk, Technical Report for the Association of Polish Electrical Engineers (SEP), and for the Polish Optoelectronics Research and Technical Communities; Warsaw University of Technology, Poland; Committee of Electronics and Telecommunications, Polish Academy of Sciences;

Technical Report PPPWIF , 1997

W ramach niniejszego etapu projektu badawczego prowadzono prace teoretyczne, technologiczne, kons... more W ramach niniejszego etapu projektu badawczego prowadzono prace teoretyczne, technologiczne, konstrukcyjne i programowe nad złożonym sieciowym systemem pomiarowym obsługującym wieloparametrowy czujnik światłowodowy. Czujnik ma służyć do monitorowania parametrów wody w warunkach środowiskowych. Oznaczanymi wielkościami przez czujnik są: pH, temperatura oraz zawartość jonów metali alkalicznych. Opracowano i wykonano warstwy receptorowe, których parametry optyczne (widmo absorpcji) zależą od zmian mierzonych wielkości. Prowadzono prace nad integracją kilku funkcji pomiarowych w czujniku. W oparciu o uzyskane materiały receptorowe opracowano wieloparametrowy czujnik z zestawem pomiarowym, umożliwiającym akwizycję wyników pomiarów. Kilka wstępnych wersji czujnika testowano w warunkach laboratoryjnych optymalizując ich parametry technologiczne i metrologiczne. Podano wstępne parametry badanego czujnika. Zaproponowano następną wersję roboczą rozwoju sieciowego systemu obsługi czujników optoelektronicznych realizowanych w programie.

Alberica Toia, Ilya Selyuzhenkov, (Edit.), Compressed Baryonic Experiment at FAIR; CBM Progress Report 2017, 2018

Editors: Ilya Selyuzhenkov (ilya.selyuzhenkov@gmail.com), Alberica Toia (a.toia@gsi.de); Reviewer... more Editors: Ilya Selyuzhenkov (ilya.selyuzhenkov@gmail.com), Alberica Toia (a.toia@gsi.de);
Reviewers: P.P. Bhaduri, C. Blume, S. Chattopadhyay, J. de Cuveland, I. Deppner, D. Emschermann, V. Friese, M. Golubeva, F. Guber, N. Herrmann, J. Heuser, C. Höhne, W. Müller, C. Müntz, I. Selyuzhenkov, P. Senger, C. Sturm, A. Toia;
Contributors: Members of CBM Collaboration;
DOI: 10.15120/GSI-2018-00485 (https://dx.doi.org/10.15120/GSI-2018-00485); ISBN 978-3-9815227-5-4;
Printed in Darmstadt by GSI, March 2018;

Łódź University of Technology, Ph.D.Thesis, 2022

Tytuł rozprawy: Opracowanie i optymalizacja bezkontaktowego połączenia rozłącznegopomiędzy światł... more Tytuł rozprawy: Opracowanie i optymalizacja bezkontaktowego połączenia rozłącznegopomiędzy światłowodem włóknistym a paskowym; Development and optimization of anon-contact and separable optical connection between optical fiber and strip waveguideAutor rozprawy: mgr inż. Mateusz ŁakomskiPodstawą recenzji jest uchwała Rady do spraw Stopni Naukowych Politechniki Łódzkiejw dyscyplinach Automatyka, Elektronika i Elektrotechnika oraz Informatyka Techniczna iTelekomunikacja z dnia 12 lipca 2022 r. dotycząca powołania recenzentów wyżejwymienionej rozprawy doktorskiej. Pismo Dziekana Wydziału Elektrotechniki, Elektroniki,Informatyki i Automatyki Politechniki Łódzkiej Pana dr hab. inż. Jacka Kucharskiego,profesora uczelni, w powyższej sprawie z dnia 13.07.2022 r. Promotorem rozprawy jestProfesor Zbigniew Lisik a promotorem pomocniczym dr inż. Zbigniew Tosik.

(8) (PDF) Review of Ph.D. Thesis in Photonics: Mateusz Łakomski (Łódź University of Technology, Poland), Development and optimization of a non-contact and separable optical connection between optical fiber and strip waveguide. Available from: https://www.researchgate.net/publication/361965468_Review_of_PhD_Thesis_in_Photonics_Mateusz_Lakomski_Lodz_University_of_Technology_Poland_Development_and_optimization_of_a_non-contact_and_separable_optical_connection_between_optical_fiber_and_strip_w [accessed May 17 2023].

Adam Smoliński, Optoelektronika Światłowodowa, WKiŁ, Warszawa 1985 (dedykacja autora), 1985

Adam Smoliński, Optoelektronika Światłowodowa, WKiŁ, Warszawa 1985 (dedykacja autora)

A.Pawlaczyk, Elementy i układy optoelektroniczne, WKiŁ, Warszawa 1984 (dedykacja autora), 1984

A.Pawlaczyk, Elementy i układy optoelektroniczne, WKiŁ, Warszawa 1984 (dedykacja autora)

Zeszyty Naukowe ONPMP - Ośrodek Naukowo Produkcyjny Materiałów Półprzewodnikowych, WEMA, Warszawa, 1978

Longin Kociszewski, Problemy materiałowe w technologii wytwarzania włókien optycznych do światłow... more Longin Kociszewski, Problemy materiałowe w technologii wytwarzania włókien optycznych do światłowodów, ONPMP, WEMA, Warszawa 1978
[Dedykacja autora]

Światłowody i Ich Zastosowania, III Krajowe Sympozjum, Jabłonna 15-17 lutego 1983; Polska Akademia Nauk, Komitet Elektroniki i Telekomunikacji, 1983

Ryszard Romaniuk, Światłowody i Ich Zastosowania, III Krajowe Sympozjum, Jabłonna 15-17 lutego 19... more Ryszard Romaniuk, Światłowody i Ich Zastosowania, III Krajowe Sympozjum, Jabłonna 15-17 lutego 1983; Polska Akademia Nauk, Komitet Elektroniki i Telekomunikacji, Sprawozdanie 19.03.1983

Antoni Siennicki, Mieczysław Szustakowski, Komitet Elektroniki i Telekomunikacji PAN, 28.02.1981, 1981

Antoni Siennicki, Mieczysław Szustakowski, Komitet Elektroniki i Telekomunikacji, Polska Akademia... more Antoni Siennicki, Mieczysław Szustakowski, Komitet Elektroniki i Telekomunikacji, Polska Akademia Nauk, 28.02.1981
I Sympozjum Techniki Pomiarowej Światłowodów;
protokół zebrania

International Journal of Optoelectronics, Taylor and Francis, London 1993 , 1993

International Journal of Optoelectronics, Taylor and Francis, London 1993 (Editorial Board)

Praca dyplomowa magisterska, Politechnika Warszawska, IPE, Wydział Elektroniki, 1990

Artur Dybko, Światłowodowy czujnik do pomiaru stężenia jonów hydroniowych, Praca dyplomowa magist... more Artur Dybko, Światłowodowy czujnik do pomiaru stężenia jonów hydroniowych, Praca dyplomowa magisterska, Instytut Podstaw Elektroniki, Politechnika Warszawska, 1990 (okładka, spis treści, dedykacja)
Wstęp,
Przegląd konstrukcji pH-metrów światłowodowych,
Wybór metody pomiarowyej,
Wyniki prac doświadczalnych,
Sugestie dalszych prac,
Dodatek chemiczny
Literatura.

Wydawnictwa Politechniki Warszawskiej, 1978 , 1978

Jan Petykiewicz, Optyka falowa, Wydawnictwa Politechniki Warszawskiej, 1978 (okładka, spis treści... more Jan Petykiewicz, Optyka falowa, Wydawnictwa Politechniki Warszawskiej, 1978 (okładka, spis treści, przedmowa, dedykacja)
Elektromagnetyczna teoria światła,
Interferencja światła,
Elementy teorii dyfrakcji,
Optyka kryształów,
Rozpraszanie światła,
Zjawiska nieliniowe w optyce,
Przybliżenie optyki geometrycznej.

Polska Akdamia Nauk, Ossolineum, Warszawa 1978, 1978

Bohdan Paszkowski, Włókna światłowodowe, własności, technologia, kierunki rozwojowe, Najnowsze Os... more Bohdan Paszkowski, Włókna światłowodowe, własności, technologia, kierunki rozwojowe, Najnowsze Osiągnięcia Nauki, Polska Akademia Nauk, Ossolineum, Warszawa 1978 (strona tytułowa, spis treści, wstęp, dedykacja)
Wstęp,
Ogólne uwagi o parametrach traktu światłowodowego,
Rodzaje i parametry światłowodów,
Straty mocy w światłowodach,
Wytwarzanie włókien światłowodowych,
Porównanie technologii wytwarzania włókien światłowodowych,
Zakończenie i literatura.

Polska Akademia Nauk, Ossolineum Warszawa 1980, 1980

Adam Smoliński, Światłowody oraz ich zastosowania, Najnowsze Osiągnięcia Nauki, Warszawa Ossoline... more Adam Smoliński, Światłowody oraz ich zastosowania, Najnowsze Osiągnięcia Nauki, Warszawa Ossolineum 1980 (spis treści, przedmowa, dedykacja)
Włókna szklane,
Światłowody i ich rodzaje,
Teoria modów fal elektromagnetycznych w światłowodach,
Straty w światłowodach,
Wytrzymałość mechaniczna światłowodów,
Wytwarzanie światłowodów,
Klasyfikacja światłowodów,
Zastosowania światłowodów,
Optoelektroniczne elementy telekomunikacji światłowodowej,
Źródła promieniowania,
Detektory promieniowania,
Wzmacniacze światła,
Optoelektronika zintegrowana,
Telekomunikacja światłowodowa,
Zakończenie i piśmiennictwo.

Łączność Tygodnik Telekomunikacji Polskiej SA, 1997

FEANI European Engineer (Eur Ing) Polski "inżynier bez granic", Ryszard Romaniuk, Łączność, Tygo... more FEANI European Engineer (Eur Ing) Polski "inżynier bez granic", Ryszard Romaniuk, Łączność, Tygodnik Telekomunikacji Polskiej SA, nr 8(2305), 23 lutego 1997

Jan Dorosz, Niektóre zagdanienia tyglowej technologii światłowodów, Praca doktorska, UMCS, Lublin luty 1984 (spis treści), 1984

Jan Dorosz, Niektóre zagadanienia tyglowej technologii światłowodów, Praca doktorska, UMCS, Lubli... more Jan Dorosz, Niektóre zagadanienia tyglowej technologii światłowodów, Praca doktorska, UMCS, Lublin luty 1984 (spis treści)
Dedykacje dla prof. Andrzeja Waksmundzkiego, prof. Adama Smolińskiego

TWEPP 2018 Topical Workshop on Electronics for Particle Physics, Antwerp, 17-21 September 2018, 2018

The Compressed Baryonic Matter (CBM) experiment is currently repared at the Facility for Antipro... more The Compressed Baryonic Matter (CBM) experiment is currently repared at the Facility for Antiproton and Ion Research (FAIR ) in Darmstadt. Its purpose is the exploration of the QCD phase diagram in
the region of high baryon densities during highenergy nucleusnucleus
collisions. CBM will utilize various particle detectors: Micro Vertex Detector (MVD), Ring Imaging Cherenkov Detector (RICH), Transition Radiation Detector (TRD), Time of Flight Detector (TOF), Projectile Spectator Detector (PSD), Silicon Tracking System (STS), Muon hamber (MUCH). In the first version of the CBM readout chain the Data Processing Boards (DPB) were important components responsible for communication between the Front End Electronics (FEE) boards, the Timing and Fast Control (TFC) system, the Experiment Control System (ECS) and the first stage of the data acquisition system First
Level Event Selector (FLES). To achieve required level of flexibility, it was necessary to implement it in a parametrized highlevel VHDL code. For even greater flexibility (e.g., for automatic generation of registers with associated IPbus address tables), it was necessary to create new solutions based on automatic generation of the VHDL, XML and Python code from the common description of the system. The system may be a good example of the flexible and parametrized control and data processing firmware. The firmware is currently used in development of readout chain for mCBM and CBM.

Polish SPIE Chapter, Bulletin 2006, The International Society for Optics and Photonics, Bellingham, WA USA, 2006

XVIII IEEE-SPIE Symposium on Photonics and Web Engineering; Photonics and Electronics for Acceler... more XVIII IEEE-SPIE Symposium on Photonics and Web Engineering; Photonics and Electronics for Accelerators and High Energy Physics;
WILGA 29 May - 4 June 2006, http://wilga.ise.pw.edu.pl;
Polish SPIE Chapter, Bulletin 2006, pp.9-14;

VI Konferencja Światłowody i Ich Zastosowania, Tom 2, Białystok - Białowieża, 22-24 stycznia 1998, 1998

Jan Dorosz, Ryszard Romaniuk (Red.), VI Konferencja Światłowody i Ich Zastosowania, Białystok - B... more Jan Dorosz, Ryszard Romaniuk (Red.), VI Konferencja Światłowody i Ich Zastosowania, Białystok - Białowieża, 22-24 stycznia 1998,
Polska Akademia Nauk,
Komitet Elektroniki i Telekomunikacji,
Sekcaj Optoelektroniki,
Huta Szkła Biaglass

VI Konferencja Światłowody i Ich Zastosowania, Tom 1, Białystok - Białowieża, 22-24 stycznia 1998, 1998

V Krajowa Konferencja Światłowody i Ich Zastosowania, Białowieża, 19-21 stycznia 1995, 1995

Jan Dorosz (Red.), V Krajowa Konferencja Światłowody i Ich Zastosowania (Zastosowania Światłowodó... more Jan Dorosz (Red.), V Krajowa Konferencja Światłowody i Ich Zastosowania (Zastosowania Światłowodów), Białowieża, 19-21 stycznia 1995;
Polska Akademia Nauk,
Komitet Elektroniki i Telekomunikacji,
Sekcja Optoelektroniki,
Huta Szkła Biaglass,
Oddział Badawczo - Produkcyjny Światłowodów
Politechnika Białostocka,

Jan Dorosz (Red.), IV Konferencja "Zastosowania Światłowodów", Hotel Iwa, Białowieża, 16 - 18 sty... more Jan Dorosz (Red.), IV Konferencja "Zastosowania Światłowodów", Hotel Iwa, Białowieża, 16 - 18 stycznia 1992;
Huta Szkła Białystok,
Oddział Badawczo - Produkcyjny Światłowodów

III Krajowa Konferencja "Zastosowania Światłowodów", Hotel Iwa, Białowieża, 24-26 stycznia 1990, 1990

Jan Dorosz (Red.), III Krajowa Konferencja "Zastosowania Światłowodów", Hotel Iwa, Białowieża, 24... more Jan Dorosz (Red.), III Krajowa Konferencja "Zastosowania Światłowodów", Hotel Iwa, Białowieża, 24-26 stycznia 1990; (trzecia w serii spotkań białostocko-białowieskich);
Polska Akademia Nauk,
Komitet Elektroniki i Telekomunikacji
Sekcja Optoelektroniki,
Huta Szkła Białystok,
Oddział Badawczo - Produkcyjny Światłowodów;
Rada Wojewódzka FSNT NOT Białystok;

Na okładce materiałów konferencyjnych jest nazwa II Konferencja. Konferencje białostockie rozpoczęły się w roku 1982 (I spotkanie pt Światłowody Nietelekomunikacyjne).
Ten błąd w numeracji ciągnie się dalej w kolejnych numerach i latach naukowych spotkań światłowodowych pod patronatem KEiT PAN: IV (1992), V (1995), i VI (1998).

II Konferencja "Zastosowania Światłowodów", Białowieża, 15-17 września 1987; (druga w cyklu spotkań białostocko-białowieskich rozpoczętych w roku 1982), 1987

Jan Dorosz (Red.), II Konferencja "Zastosowania Światłowodów", Hotel Iwa, Białowieża, 15-17 wrześ... more Jan Dorosz (Red.), II Konferencja "Zastosowania Światłowodów", Hotel Iwa, Białowieża, 15-17 września 1987;
Biuro Rady Wojewódzkiej FSNT - NOT w Białymstoku;
Huta Szkła Białystok, Oddział Badawczo - Produkcyjny Światłowodów

Ta konferencja z 1987 r otwarła cykl spotkań pt. Zastosowania Światłowodów, organizowany przez ośrodek białostocki i osobiście przez (najpierw dr a potem) profesora Jana Dorosza..
Formalnie cykl został rozpoczęty 5 lat wcześniej w roku 1982, gdy zorgaznizowano spotkanie pod patronatem Komitetu Elektroniki i Telekomunikacji PAN pt. Pierwsze Krajowe Sympozjum Światłowody Nitelelekomunikacyjne. Organizatorami byli Huta Szkła Białystok oraz Politechnika Białostocka. Głównym organizatorem spotkania był wówczas mgr inż Jan Dorosz, a pomagał mu w organizacji dr inż Ryszard Romaniuk.
Tak więc formalnie numer tej konferencji powinien być 2 a nie 1, czyli Druga Krajowa Konferencja pt. Zastosowania Światłowodów.

Światłowody i ich Zastosowania, III Krajowe Sympozjum, Jabłonna 15-17 lutego 1983; Tom 5; , 1983

Adam Smoliński, Ryszard Romaniuk (red.), Światłowody i ich Zastosowania, III Krajowe Sympozjum, J... more Adam Smoliński, Ryszard Romaniuk (red.), Światłowody i ich Zastosowania, III Krajowe Sympozjum, Jabłonna 15-17 lutego 1983; Tom 5;
Polska Akademia Nauki
Komitet Elektroniki i Telekomunikacji
Instytut Łączności
Politechnika Warszawska
ISBN 83-01-05259-7

Adam Smoliński, Ryszard Romaniuk (red.), Światłowody i ich Zastosowania, III Krajowe Sympozjum, Jabłonna 15-17 lutego 1983; Tom 4; , 1983

Adam Smoliński, Ryszard Romaniuk (red.), Światłowody i ich Zastosowania, III Krajowe Sympozjum, J... more Adam Smoliński, Ryszard Romaniuk (red.), Światłowody i ich Zastosowania, III Krajowe Sympozjum, Jabłonna 15-17 lutego 1983; Tom 4;
Optical Fibers and Their Applications;
Polska Akademia Nauk
Komitet Elektroniki i Telekomunikacji
Instytut Łączności
Politechnika Warszawska
ISBN 83-01-05739-4

Adam Smoliński, Ryszard Romaniuk (red.), Światłowody i ich Zastosowania, III Krajowe Sympozjum, Jabłonna 15-17 lutego 1983; Tom 3; Polska Akademia Nauki Komitet Elektroniki i Telekomunikacji, 1983

Adam Smoliński, Ryszard Romaniuk (red.), Światłowody i ich Zastosowania, III Krajowe Sympozjum, J... more Adam Smoliński, Ryszard Romaniuk (red.), Światłowody i ich Zastosowania, III Krajowe Sympozjum, Jabłonna 15-17 lutego 1983; Tom 3;
Polska Akademia Nauki
Komitet Elektroniki i Telekomunikacji
Instytut Łączności
Politechnika Warszawska

Okładka tomu 3;
Spis treści
Komitet Naukowy,
Od Redakcji,
A.Smoliński, Wprowadzenie,
B.Paszkowski, Wprowadzenie,
Władysław Majewski, Współczesne problemy telekomunikacji,
A.Smoliński, Jednopolaryzacyjne światłowody jednomodowe,
Alfabetyczny spis autorów.
Państwowe Wydawnictwo Naukowe ISBN 83-01-05310-0

Adam Smoliński, Ryszard Romaniuk (editors), Światłowody i ich Zastosowania, Tom 2, III Krajowe Sympozjum, Jabłonna 15-17 lutego 1983, 1983

Światłowody i ich Zastosowania, III Krajowe Sympozjum, Jabłonna 15-17 lutego 1983; Tom 2; Polsk... more Światłowody i ich Zastosowania, III Krajowe Sympozjum, Jabłonna 15-17 lutego 1983; Tom 2;
Polska Akademia Nauk
Komitet Elektroniki i Telekomunikacji
Instytut Łączności
Politechnika Warszawska

Okładka tomu 1;
Spis treści
Komitet Naukowy,
Od Redakcji,
A.Smoliński, The state of the art of the optical fiber transmission,
Alfabetyczny spis autorów.
Państwowe Wydawnictwo Naukowe ISBN 83-01-04948-0

Adam Smoliński, Ryszard Romaniuk (editors), Światłowody i ich Zastosowania, Tom 1, III Krajowe Sympozjum, Jabłonna 16-18 lutego 1982, 1982

Światłowody i ich Zastosowania, III Krajowe Sympozjum, Jabłonna 16-18 lutego 1982; Tom 1; Polsk... more Światłowody i ich Zastosowania, III Krajowe Sympozjum, Jabłonna 16-18 lutego 1982; Tom 1;
Polska Akademia Nauki
Komitet Elektroniki i Telekomunikacji
Instytut Łączności
Politechnika Warszawska

I Krajowa Szkoła Optoelektroniki w zakresie teorii i techniki światłowodowej, 1987

I Krajowa Szkoła Optoelektroniki w zakresie teorii i techniki światłowodowej; Program i organizac... more I Krajowa Szkoła Optoelektroniki w zakresie teorii i techniki światłowodowej; Program i organizacja;
Centralny Program Badawczo-Rozwojowy 8.12;
Optoelektronika - Rozwój materiałów i Elementów Bazowych;
Komitet Elektroniki i Telekomunikacji Polskiej Akademii Nauk;
WDW, Unieście koło Koszalina 6-10 kwietnia 1987

I Sympozjum Techniki Pomiarowej Światłowodów, Lublin, UMCS 1981, 1981

I Sympozjum Techniki Pomiarowej Światłowodów, Lublin 1981; Komitet Elektroniki i Telekomunikacji... more I Sympozjum Techniki Pomiarowej Światłowodów, Lublin 1981;
Komitet Elektroniki i Telekomunikacji Polskiej Akademii Nauk ;
Wydział Chemii, Uniwersytet Marii Curie-Skłodowskiej,
Okręgowe Laboratorium Poczty i Telekomunikacji w Lublinie,
Komitet Programowy Sympozjum:
A.Smoliński, Z.Szpigler, M.Szustakowski, J.Helsztyński, A.Waksmundzki, St.Zbyrad, L.Kociszewski, A.Kowalski, K.Holejko, J.Kowar, W.Majewski, F.Witos, B.Mroziewicz, W.Woliński, R.Romaniuk, A.Siennicki.

IV Krajowa Szkoła Optoelektroniki "Czujniki Elektroniczne i Światłowodowe oraz ich Zastosowania", Waplewo, 7-11.05.1990, Program Szkoły, 1990

IV Krajowa Szkoła Optoelektroniki "Czujniki Elektroniczne i Światłowodowe oraz ich Zastosowania",... more IV Krajowa Szkoła Optoelektroniki "Czujniki Elektroniczne i Światłowodowe oraz ich Zastosowania", Waplewo, 7-11.05.1990,
Program Szkoły;
Polska Akademia Nauk;
Centralny Program Badawczo - Rozwwojowy 8.12. Optioelektronika

I Krajowa Szkoła Optoelektroniki, Unieście 1987, Program Szkoły, 1987

I Krajowa Szkoła Optoelektroniki, Unieście 1987, Program Szkoły

III Krajowa Szkoła Optoelektroniki "Materiały i Technologie Światłowodowe", Kazimierz n/Wisłą, kwiecień 1989, 1989

III Krajowa Szkoła Optoelektroniki "Materiały i Technologie Światłowodowe", Kazimierz n/Wisłą, kw... more III Krajowa Szkoła Optoelektroniki "Materiały i Technologie Światłowodowe", Kazimierz n/Wisłą, kwiecień 1989;
Program Szkoły;

II Krajowa Szkoła Optoelektroniki "Optotelekomunikacja", Gdańsk-Sobieszewo, 18-22.04.1988, 1988

II Krajowa Szkoła Optoelektroniki; "Optotelekomunikacja"; Program Szkoły; Instytut Łączności; Woj... more II Krajowa Szkoła Optoelektroniki; "Optotelekomunikacja"; Program Szkoły;
Instytut Łączności;
Wojskowy Instytut Łączności;
Gdańsk - Sobieszewo, 18-22.04.1988
Optical Fiber Communications

Vth International School on Coherent Optics, Jena 1984, 1984

Comparizon of polarization properties of spun and twisted monomode optical fibers; Polarization... more Comparizon of polarization properties of spun and twisted monomode optical fibers;
Polarization properties of tailored optical fibers;
Multicore optical fibres for transmission;
Coupled wave transmission in long-length of multicore optical fibres;
Direct optoelectronic multiplexing of WDM signals to fiber-optic channel;
Vth International School on Coherent Optics,
Physikalisch-Technisches Institut der Akademie der Wissenschaften,
Friedrich-Schiller Univeritat, Jena Sektion Physik
10-15 September 1984, Jena

Seminarium Instytutu Radioelektroniki Politechniki Warszawskiej 1981, 1981

Ryszard Romaniuk, Elementy i układy światłowodowe, Instytut Radioelektroniki, Politechnika Warsz... more Ryszard Romaniuk, Elementy i układy światłowodowe, Instytut Radioelektroniki, Politechnika Warszawska, 23.04.1981

Technika światłowodowa i możliwości jej zastosowań w mechanice doświadczalnej, Komitet Mechaniki Polskiej Akademii Nauk, Sekcja Mechaniki Doświadczalnej, 1982

Ryszard Romaniuk, Technika światłowodowa i możliwości jej zastosowań w mechanice doświadczalnej, ... more Ryszard Romaniuk, Technika światłowodowa i możliwości jej zastosowań w mechanice doświadczalnej, Komitet Mechaniki Polskiej Akademii Nauk, Sekcja Mechaniki Doświadczalnej, PKiN Warszawa 19.11.1982
/dr hab. inż. Stanisław Bogdański/

Przegląd możliwości techniki światłowodowej, Zakład Podstaw Konstrukcji ITLiMS Politechnika Warszawska, 1982

Ryszard Romaniuk, Przegląd możliwości techniki światłowodowej, Zastosowania w mechanice stosowane... more Ryszard Romaniuk, Przegląd możliwości techniki światłowodowej, Zastosowania w mechanice stosowanej, Zakład Podstaw Konstrukcji ITLiMS Politechnika Warszawska, 15.04.1982
/doc. dr hab. inż. Jacek Stupnicki/

Polskie Towarzystwo Przyrodników im. Kopernika, Oddział Warszawski, PKiN, 25.06.1980, 1980

Ryszard Romaniuk, Zastosowanie światłowodów w medycynie i biologii, Polskie Towarzystwo Przyrodni... more Ryszard Romaniuk, Zastosowanie światłowodów w medycynie i biologii, Polskie Towarzystwo Przyrodników im. Kopernika, Oddział Warszawski, PKiN, Muzeum Techniki, 25.06.1980

Komitet Naukowo-Techniczny NOT d/s Inżynierii Medycznej, 1981, 1981

Ryszard Romaniuk, Technika światłowodowa w aparaturze biomedycznej, Komitet Naukowo-Techniczny NO... more Ryszard Romaniuk, Technika światłowodowa w aparaturze biomedycznej, Komitet Naukowo-Techniczny NOT d/s Inżynierii Medycznej, 08.04.1981

Instytut Meteorologii i Gospodarki Wodnej, Warszawa 1981, 1981

R.Romaniuk, B.Romaniuk, Technika światłowodowa i koncepcje zastosowania jej w pomiarach wodnych, ... more R.Romaniuk, B.Romaniuk, Technika światłowodowa i koncepcje zastosowania jej w pomiarach wodnych, Instytut Meteorologii i Gospodarki Wodnej, BOINTE, 06.01.1981

Sekcja Biofizyki, Polskie Towarzystwo Fizyczne, 1980

Ryszard Romaniuk, Światłowody w biofizyce i medycynie, Seminarium, Oddział Warszawski Polskiego T... more Ryszard Romaniuk, Światłowody w biofizyce i medycynie, Seminarium, Oddział Warszawski Polskiego Towarzystwa Fizycznego, Sekcja Biofizyki, Warszawa 15 grudnia 1980
dr Bogdan Lesyng , Sekcja Biofizyki PTF
Optical fibers in biophysics and medicine

Konferencja SIMP NOT "Światłowody", Politechnika Białostocka 20.03.1981, 1981

Ryszard Romaniuk, Możliwości techniki światłowodowej, Jan Dorosz, Wytwarzanie włókien światłowod... more Ryszard Romaniuk, Możliwości techniki światłowodowej,
Jan Dorosz, Wytwarzanie włókien światłowodowych metodą dwutyglową;
Elżbieta Wardzińska, Lakiery elektroizolacyjne stosowane w technice światłowodowej;
Longin Kociszewski, Problemy materiałowe technologii śwqiatłowodowej;
Witold Berger, Wybrane problemy integracji światłowodów.
Konferencja Stowarzyszenia Inżynierów i Techników Mechaników Polskich SIMP, Białystok 20.03.1981;
Politechnika Białostocka, Wydział Mechaniki

Polska Sekcja IEEE 1982, 1982

Ryszard Romaniuk, Postępy w dziedzinie techniki światłowodowej (na tle stażu w Anglii, grudzień i... more Ryszard Romaniuk, Postępy w dziedzinie techniki światłowodowej (na tle stażu w Anglii, grudzień i styczeń 1981-1982), Polska Sekcja IEEE, Dom Technika NOT, Warszawa 06.04.1982