G. Ghibaudo - Academia.edu (original) (raw)
Papers by G. Ghibaudo
IEEE InternationalElectron Devices Meeting, 2005. IEDM Technical Digest., 2005
Solid-State Electronics, 2002
Simple techniques are proposed to extract the oxide thickness from C(V) characteristics in the na... more Simple techniques are proposed to extract the oxide thickness from C(V) characteristics in the nanometer range. A first comparative method using no fitting parameter allows the oxide thickness extraction by comparison to a reference sample on the same technology. In a second method, the oxide thickness is directly extracted assuming one parameter (associated to the carrier statistics). Both techniques are experimentally and theoretically justified. They open new perspectives to statistical oxide thickness measurements.
physica status solidi (c), 2008
1 Electronics Lab., Department of Physics, Aristotle University of Thessaloniki, 54124 Thessaloni... more 1 Electronics Lab., Department of Physics, Aristotle University of Thessaloniki, 54124 Thessaloniki, Greece 2 Solid State Section, Department of Physics, Aristotle University of Thessaloniki, 54124 Thessaloniki, Greece 3 Institute of Microelectronics, Electromagnetic ...
Materials Science in Semiconductor Processing, 2008
NANOSIL Network of Excellence [NANOSIL NoE web site〈 www. nanosil-noe. eu〉], funded by the Europe... more NANOSIL Network of Excellence [NANOSIL NoE web site〈 www. nanosil-noe. eu〉], funded by the European Commission in the 7th Framework Programme (ICT-FP7, no 216171), aims at European scale integration of the excellent European research laboratories and their capabilities in order to strengthen scientific and technological excellence in the field of nanoelectronic materials and devices for terascale integrated circuits (ICs), and to disseminating the results in a wide scientific and industrial community. NANOSIL is ...
IEEE Electron Device Letters, 1996
Organic Electronics, 2013
ABSTRACT We report on a study seeking an optimized contact configuration for organic transistors ... more ABSTRACT We report on a study seeking an optimized contact configuration for organic transistors that minimizes contact effects but maintains smallest contact size. We begin with the bulk access resistance in staggered transistors which results from the charge transport through the organic semiconductor film. Bulk access resistance is an intrinsic contributor to the contact resistance which has been little understood due to lack of a reliable study tool. In this work, we utilize the inner transported power inside the semiconductor film as a medium to investigate the contact resistance and the relevant contact effects. We examine the influences of the organic film thickness (tSC), the channel length (L), the underlying charge transport and various organic semiconductor materials with variable carrier mobility. A roughly optimal contact length (LC) of LC0 ≈ 6tSC is obtained. The results reveal that besides the device architecture the underlying charge transport should be also taken into account in designing organic transistors for practical application.
Extended Abstracts of the 2007 International Conference on Solid State Devices and Materials, 2007
Solid-State Electronics, 2009
Solid-State Electronics, 2013
ABSTRACT In this paper, we investigate the impact of silicon–germanium channel on PMOSFETs with T... more ABSTRACT In this paper, we investigate the impact of silicon–germanium channel on PMOSFETs with TiN metal and HfSiON dielectrics gate stack. Performance increase with Ge incorporation in the channel is higher than theoretically expected. Threshold voltage is outstandingly lowered and mobility is highly improved. Poisson–Schrödinger simulations are carried out to interpret the experimental results. Room as well as low temperature mobility measurements and low frequency noise analysis are performed in order to better understand this unforeseen germanium influence. Smaller Coulomb scattering rates are clearly evidenced in SiGe devices, probably explaining the higher mobility.
2006 IEEE international SOI Conferencee Proceedings, 2006
The low frequency noise of TiN/HfO2 fully-depleted SOI nMOSFET is studied for different front and... more The low frequency noise of TiN/HfO2 fully-depleted SOI nMOSFET is studied for different front and back gate voltages (Vg2). It is shown that depending on Vg2, SiO2 or HfO2 traps or a combination of both could dominate the capture and release of carriers in defects in the gate dielectric layer
Solid-State Electronics, 2014
Solid-State Electronics, 2012
ABSTRACT This work presents a critical review and a re-investigation of the electrical characteri... more ABSTRACT This work presents a critical review and a re-investigation of the electrical characterization of Gate Induced Drain Leakage (GIDL) and . The underlying assumptions of the previously proposed extraction methods are exposed and their ability to capture Band-to-Trap mechanisms is discussed. A new approach is introduced to overcome some of the limiting assumptions made by the previous extraction methods. This new approach is benchmarked against the previously proposed ones. The results show that it enables a better extraction of the GIDL parameters compared to the conventional methods, by using the voltage dependency of the activation energy to gain insight in the electric field responsible for Band-to-Band Tunneling in the device. Finally, the experimental application of this new approach is carried out on cold process FDSOI MOSFET and confirms the ability of this new method to quantify the impact of trap assisted tunneling on GIDL.
Solid-State Electronics, 2012
Solid-State Electronics, 2002
This work is a presentation of the so-called “Bardeen's approach” formalism for tunneling. T... more This work is a presentation of the so-called “Bardeen's approach” formalism for tunneling. The way to use it for the modeling of tunnel current in MOS structure is also discussed. The theoretical background of this formalism is presented in an understandable way, and compared with other approaches. Then, an original method to use it is also proposed, which allows both numerical and analytical calculations.
Solid-State Electronics, 2003
ABSTRACT Advanced channel N and P MOSFETs with HfO2 gate dielectric and metal gate have been fabr... more ABSTRACT Advanced channel N and P MOSFETs with HfO2 gate dielectric and metal gate have been fabricated and exhibit high performance. The effective mobility has been characterized at various temperatures for NMOS and PMOS devices. The electron mobility is lower than in SiO2, whereas the hole mobility is relatively unaffected at room temperature but also degraded at low temperatures. The mobility degradation after constant voltage stress suggests a more important Coulomb scattering contribution to mobility as compared to SiO2.
Microelectronics Reliability, 1999
Microelectronics Reliability, 2001
In this paper, a comprehensive description of the ultrathin oxide failure evolution is presented.... more In this paper, a comprehensive description of the ultrathin oxide failure evolution is presented. For sub-25 Å, Hard BD is no longer hard. A complete description of the novel failure manifestation (progressive breakdown) is done. Associated wear-out is modelled and a physical mechanism is proposed. Finally, the relevance of the failure definition is discussed. It is a crucial point, to
Microelectronics Reliability, 2003
ABSTRACT Further scaling of CMOS technologies will require the use of high K gate dielectrics in ... more ABSTRACT Further scaling of CMOS technologies will require the use of high K gate dielectrics in order to keep a sufficiently low leakage current. The electrical properties of these new materials, especially in terms of interface quality, mobility and reliability can be regarded as a major concern. In this work, we have studied charge trapping in HfO2/SiO2 gate dielectric stacks using CVS and CCS with gate and drain currents vs gate voltage measurements. We found positive charge trapping for gate injection and negative charge trapping for substrate injection. We also gained more insight into the influence on charge trapping of the buffer SiO2 layer.
IEEE InternationalElectron Devices Meeting, 2005. IEDM Technical Digest., 2005
Solid-State Electronics, 2002
Simple techniques are proposed to extract the oxide thickness from C(V) characteristics in the na... more Simple techniques are proposed to extract the oxide thickness from C(V) characteristics in the nanometer range. A first comparative method using no fitting parameter allows the oxide thickness extraction by comparison to a reference sample on the same technology. In a second method, the oxide thickness is directly extracted assuming one parameter (associated to the carrier statistics). Both techniques are experimentally and theoretically justified. They open new perspectives to statistical oxide thickness measurements.
physica status solidi (c), 2008
1 Electronics Lab., Department of Physics, Aristotle University of Thessaloniki, 54124 Thessaloni... more 1 Electronics Lab., Department of Physics, Aristotle University of Thessaloniki, 54124 Thessaloniki, Greece 2 Solid State Section, Department of Physics, Aristotle University of Thessaloniki, 54124 Thessaloniki, Greece 3 Institute of Microelectronics, Electromagnetic ...
Materials Science in Semiconductor Processing, 2008
NANOSIL Network of Excellence [NANOSIL NoE web site〈 www. nanosil-noe. eu〉], funded by the Europe... more NANOSIL Network of Excellence [NANOSIL NoE web site〈 www. nanosil-noe. eu〉], funded by the European Commission in the 7th Framework Programme (ICT-FP7, no 216171), aims at European scale integration of the excellent European research laboratories and their capabilities in order to strengthen scientific and technological excellence in the field of nanoelectronic materials and devices for terascale integrated circuits (ICs), and to disseminating the results in a wide scientific and industrial community. NANOSIL is ...
IEEE Electron Device Letters, 1996
Organic Electronics, 2013
ABSTRACT We report on a study seeking an optimized contact configuration for organic transistors ... more ABSTRACT We report on a study seeking an optimized contact configuration for organic transistors that minimizes contact effects but maintains smallest contact size. We begin with the bulk access resistance in staggered transistors which results from the charge transport through the organic semiconductor film. Bulk access resistance is an intrinsic contributor to the contact resistance which has been little understood due to lack of a reliable study tool. In this work, we utilize the inner transported power inside the semiconductor film as a medium to investigate the contact resistance and the relevant contact effects. We examine the influences of the organic film thickness (tSC), the channel length (L), the underlying charge transport and various organic semiconductor materials with variable carrier mobility. A roughly optimal contact length (LC) of LC0 ≈ 6tSC is obtained. The results reveal that besides the device architecture the underlying charge transport should be also taken into account in designing organic transistors for practical application.
Extended Abstracts of the 2007 International Conference on Solid State Devices and Materials, 2007
Solid-State Electronics, 2009
Solid-State Electronics, 2013
ABSTRACT In this paper, we investigate the impact of silicon–germanium channel on PMOSFETs with T... more ABSTRACT In this paper, we investigate the impact of silicon–germanium channel on PMOSFETs with TiN metal and HfSiON dielectrics gate stack. Performance increase with Ge incorporation in the channel is higher than theoretically expected. Threshold voltage is outstandingly lowered and mobility is highly improved. Poisson–Schrödinger simulations are carried out to interpret the experimental results. Room as well as low temperature mobility measurements and low frequency noise analysis are performed in order to better understand this unforeseen germanium influence. Smaller Coulomb scattering rates are clearly evidenced in SiGe devices, probably explaining the higher mobility.
2006 IEEE international SOI Conferencee Proceedings, 2006
The low frequency noise of TiN/HfO2 fully-depleted SOI nMOSFET is studied for different front and... more The low frequency noise of TiN/HfO2 fully-depleted SOI nMOSFET is studied for different front and back gate voltages (Vg2). It is shown that depending on Vg2, SiO2 or HfO2 traps or a combination of both could dominate the capture and release of carriers in defects in the gate dielectric layer
Solid-State Electronics, 2014
Solid-State Electronics, 2012
ABSTRACT This work presents a critical review and a re-investigation of the electrical characteri... more ABSTRACT This work presents a critical review and a re-investigation of the electrical characterization of Gate Induced Drain Leakage (GIDL) and . The underlying assumptions of the previously proposed extraction methods are exposed and their ability to capture Band-to-Trap mechanisms is discussed. A new approach is introduced to overcome some of the limiting assumptions made by the previous extraction methods. This new approach is benchmarked against the previously proposed ones. The results show that it enables a better extraction of the GIDL parameters compared to the conventional methods, by using the voltage dependency of the activation energy to gain insight in the electric field responsible for Band-to-Band Tunneling in the device. Finally, the experimental application of this new approach is carried out on cold process FDSOI MOSFET and confirms the ability of this new method to quantify the impact of trap assisted tunneling on GIDL.
Solid-State Electronics, 2012
Solid-State Electronics, 2002
This work is a presentation of the so-called “Bardeen's approach” formalism for tunneling. T... more This work is a presentation of the so-called “Bardeen's approach” formalism for tunneling. The way to use it for the modeling of tunnel current in MOS structure is also discussed. The theoretical background of this formalism is presented in an understandable way, and compared with other approaches. Then, an original method to use it is also proposed, which allows both numerical and analytical calculations.
Solid-State Electronics, 2003
ABSTRACT Advanced channel N and P MOSFETs with HfO2 gate dielectric and metal gate have been fabr... more ABSTRACT Advanced channel N and P MOSFETs with HfO2 gate dielectric and metal gate have been fabricated and exhibit high performance. The effective mobility has been characterized at various temperatures for NMOS and PMOS devices. The electron mobility is lower than in SiO2, whereas the hole mobility is relatively unaffected at room temperature but also degraded at low temperatures. The mobility degradation after constant voltage stress suggests a more important Coulomb scattering contribution to mobility as compared to SiO2.
Microelectronics Reliability, 1999
Microelectronics Reliability, 2001
In this paper, a comprehensive description of the ultrathin oxide failure evolution is presented.... more In this paper, a comprehensive description of the ultrathin oxide failure evolution is presented. For sub-25 Å, Hard BD is no longer hard. A complete description of the novel failure manifestation (progressive breakdown) is done. Associated wear-out is modelled and a physical mechanism is proposed. Finally, the relevance of the failure definition is discussed. It is a crucial point, to
Microelectronics Reliability, 2003
ABSTRACT Further scaling of CMOS technologies will require the use of high K gate dielectrics in ... more ABSTRACT Further scaling of CMOS technologies will require the use of high K gate dielectrics in order to keep a sufficiently low leakage current. The electrical properties of these new materials, especially in terms of interface quality, mobility and reliability can be regarded as a major concern. In this work, we have studied charge trapping in HfO2/SiO2 gate dielectric stacks using CVS and CCS with gate and drain currents vs gate voltage measurements. We found positive charge trapping for gate injection and negative charge trapping for substrate injection. We also gained more insight into the influence on charge trapping of the buffer SiO2 layer.