Concept of information laser: from quantum theory to behavioural dynamics (original) (raw)
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Concept of Information Laser: from Quantum Theory to Behavioral Dynamics
HAL (Le Centre pour la Communication Scientifique Directe), 2017
Recently, the methods of quantum theory, especially quantum information, started to be widely applied outside of physics: in cognitive, social sciences, economics, finance, decision making and biology. We propose a quantum-like model: the "information laser". The basic assumption is the discrete structure of state spaces related to the quantization of information. The information field acts in the form of indistinguishable quanta of "social energy" analog to photons. The massive flow acts as a pump. In this framework an information selection process by agents under constant pressure of massive repeated information leads to collective "resonance" effects in analogy with laser cavity and stimulated emission. In order to make operational parallels between physical lasers and the information laser we identify the essential features of laser operation. An application to the analysis of recent disruptive social events (color revolutions) is discussed.
Quantum Modeling of Social Dynamics
International Journal of Knowledge Society Research, 2010
In this paper, the authors apply models extracted from the Many-Body Quantum Mechanics to understand how knowledge production is correlated to the innovation potential of a work team. This study is grounded in key assumtpions. First, complexity theory applied to social science suggests that it is of paramount importance to consider elements of non-objectivity and non-determinism in the statistical description of socio-economic phenomena. Second, a typical factor of indeterminacy in the explanation of these phenomena lead to the need to apply the instruments of quantum physics to formally describe social behaviours. In order to experiment the validity of the proposed mathematic model, the research intends to: 1) model nodes and interactions; 2) simulate the network behaviour starting from specific defined models; 3) visualize the macroscopic results emerging during the analysis/simulation phases through a digital representation of the social network.
Completeness of quantum mechanics and a possibility to apply quantum mechanics outside of physics 11 Brownian motion 1 12 The Schrödinger equation 13 Do not be afraid of no-go theorems! 14 Science and social science: econophysics?
Critical Review, 2017
Alexander Wendt's Quantum Mind and Social Science reopens the question of the relevance of quantum mechanics to the social sciences. In response, I argue that due to "quantum decoherence," the macroscopic world filters out quantum effects. Moreover, quantum decoherence makes it unlikely that the theory of quantum brains, on which Wendt relies, is true. Finally, while quantum decision theory is a potentially revolutionary field, it has not clearly accounted for alleged anomalies in classical understandings of decision making. However, the logic of quantum decoherence can motivate a new approach to the structure-agent problem.
THE WORLD AS A QUANTUM INFORMATION PROCESSOR
Praxis Filosófica, 2021
It is impossible to fully grasp reality and the universe without a sound understanding of quantum science, i.e. theory. The aim of this paper is twofold, namely first presenting what quantum information processing consists of, and then consequently discussing the implications of quantum science to the understanding of reality. I shall claim that the world is fully quantum, and the classical world is but a limit case of the quantum world. The crux of the argument is that quantum information can be taken as a living phenomenon. Quantum information processing (QIP) has been mainly the subject of computational approaches. Here we take it as the way in which information allows for a non-dualistic explanation of the world. In this sense, quantum information processing consists in understanding how entanglement stands as the ground for a coherent reality yet highly dynamical, vibrant and vivid. Information, I argue, is a living phenomenon that creates itself out of nothing. Quantum information is a relational view of entities, systems, phenomena, and events (Auletta, 2005).
Quantum Information as a General Paradigm
Foundations of Physics, 2005
Quantum–mechanical systems may be understood in terms of information. When they interact, they modify the information they carry or represent in two, and only two, ways: by selecting a part of the initial amount of (potential) information and by sharing information with other systems. As a consequence, quantum systems are informationally shielded. These features are shown to be general features of nature. In particular, it is shown that matter arises from quantum–mechanical processes through the constitution of larger ensembles that share some information while living organisms make use of a special form of information selection.
Quantum Mind and Social Science
2015
There is an underlying assumption in the social sciences that consciousness and social life are ultimately classical physical/material phenomena. In this groundbreaking book, Alexander Wendt challenges this assumption by proposing that consciousness is, in fact, a macroscopic quantum mechanical phenomenon. In the first half of the book, Wendt justifies the insertion of quantum theory into social scientific debates, introduces social scientists to quantum theory and the philosophical controversy about its interpretation, and then defends the quantum consciousness hypothesis against the orthodox, classical approach to the mind-body problem. In the second half, he develops the implications of this metaphysical perspective for the nature of language and the agent-structure problem in social ontology. Wendt's argument is a revolutionary development which raises fundamental questions about the nature of social life and the work of those who study it.
Information and the Quantum World
Entropy, 2016
The concept of information is not different in quantum theory from its counterpart in classical physics: a sui generis quantum information concept is not needed. However, the quantum world is radically different from its classical counterpart. This difference in structure of the material world has important consequences for the amounts of information that can be stored in physical systems and for the possibilities of information transfer. In many cases, overlap between quantum states (non-orthogonality of states) blurs distinctions and impedes efficient information transfer. However, the other typical quantum feature, entanglement, makes new and seemingly mysterious ways of transporting information possible. In this article, we suggest an interpretational scheme of quantum mechanics in terms of perspectival physical properties that may provide an intelligible account of these novel quantum possibilities, while staying close to the mathematical formalism of quantum mechanics.
A quantum leap for social theory
I discuss the revolutionary implications of Alexander Wendt's Quantum Mind and Social Science for social theory. These center on the significance given to society as a possibility space in which observable social reality amounts to quantum decoherent states in the system.
Quantum Politics: New Methodological Perspective
Traditionally, we understand political phenomena and international relations in terms of positivist approaches based upon Newtonian worldview, which is mechanistic and reflecting “systemic determinism” governed by eternal universal laws. The unpredictability nature of politics has made it fit to marry with quantum theory which by definition stands upon this characteristic. In recent years, “chaos and quantum theories” have attracted academics and scholars as alternative research methodology across a wide range of social science discipline including politics and international relations. This paper is an attempt to explain the matter through new methodological approach built on chaos and quantum theories.