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In the mid-21st century, amidst a world entrenched in corporate power and greed, brilliant young physicist Damien Bell emerges to create quantum communications and the AI phenomenon of quantum entities--poised to make global scarcity a thing of the past. Here Damien's journey begins--thrust into the reality of global business influence and national security--to prove that "we are all ONE."
Book Synopsis Quantum Entity | We Are All ONE by : Bruce M. Firestone
Download or read book Quantum Entity | We Are All ONE written by Bruce M. Firestone and published by Lulu.com. This book was released on 2012-04-27 with total page 588 pages. Available in PDF, EPUB and Kindle. Book excerpt: In the mid-21st century, amidst a world entrenched in corporate power and greed, brilliant young physicist Damien Bell emerges to create quantum communications and the AI phenomenon of quantum entities--poised to make global scarcity a thing of the past. Here Damien's journey begins--thrust into the reality of global business influence and national security--to prove that "we are all ONE."
Book Synopsis Quantum Entity | American Spring by : Bruce M. Firestone
Download or read book Quantum Entity | American Spring written by Bruce M. Firestone and published by Lulu.com. This book was released on with total page 615 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Each contribution is an article in itself, and great effort has been made by the authors to be lucid and not too technical. A few brief highlights of the round-table discussions are given between the chapters. Topics include: Quantum non-locality, the measurement problem, quantum insights into relativity, cosmology and thermodynamics, and possible bearings of quantum mechanics to biology and consciousness. Authors include Yakir Aharanov and Anton Zeilinger, plus Nobel laureates Anthony J. Leggett (2003) and Gerardus ‘t Hooft (1999). Foreword written by Sir Roger Penrose, best-selling author (The Emperor's New Mind) and world-renowned mathematical physicist.
Book Synopsis Quo Vadis Quantum Mechanics? by : Avshalom C. Elitzur
Download or read book Quo Vadis Quantum Mechanics? written by Avshalom C. Elitzur and published by Springer Science & Business Media. This book was released on 2006-03-30 with total page 426 pages. Available in PDF, EPUB and Kindle. Book excerpt: Each contribution is an article in itself, and great effort has been made by the authors to be lucid and not too technical. A few brief highlights of the round-table discussions are given between the chapters. Topics include: Quantum non-locality, the measurement problem, quantum insights into relativity, cosmology and thermodynamics, and possible bearings of quantum mechanics to biology and consciousness. Authors include Yakir Aharanov and Anton Zeilinger, plus Nobel laureates Anthony J. Leggett (2003) and Gerardus ‘t Hooft (1999). Foreword written by Sir Roger Penrose, best-selling author (The Emperor's New Mind) and world-renowned mathematical physicist.
During the last decade, scientists working in quantum theory have been engaging in promising new fields such as quantum computation and quantum information processing, and have also been reflecting on the possibilities of nonlinear behavior on the quantum level. These are challenging undertakings because (1) they will result in new solutions to important technical and practical problems that were unsolvable by the classical approaches (for example, quantum computers can calculate problems that are intractable if one uses classical computers); and (2) they open up new 'hard' problems of a fundamental nature that touch the foundation of quantum theory itself (for example, the contradiction between locality and nonlinearity and the interpretation of quantum computing as a universal process). In this book, one can distinguish two main streams of research to approach the just-mentioned problem field: (1) a theoretical structural part, which concentrates on the elaboration of a nonlinear quantum mechanics and the fundamentals of quantum computation; and (2) a theoretical experimental part, which focuses on the theoretical aspects of applications that arise from new technology and novel research perspectives such as quantum optics and quantum cryptography. Particular attention is also paid to the measurement problem, the classical limit and alternative interpretations (such as the hidden measurement approach). Contents:Probing the Structure of Quantum Mechanics (D Aerts et al.)The Linearity of Quantum Mechanics at Stake: The Description of Separated Quantum Entities (D Aerts & F Valckenborgh)Linearity and Compound Physical Systems: The Case of Two Separated Spin 1/2 Entities (D Aerts & F Valckenborgh)Being and Change: Foundations of a Realistic Operational Formalism (D Aerts)The Classical Limit of the Lattice-Theoretical Orthocomplementation in the Framework of the Hidden-Measurement Approach (T Durt & B D'Hooghe)State Property Systems and Closure Spaces: Extracting the Classical en Non-Classical Parts (D Aerts & D Deses)Hidden Measurements from Contextual Axiomatics (S Aerts)High Energy Approaches to Low Energy Phenomena in Astrophysics (S M Austin)Memory Effects in Atomic Interferometry: A Negative Result (T Durt et al.)Reality and Probability: Introducing a New Type of Probability Calculus (D Aerts)Quantum Computation: Towards the Construction of a ‘Between Quantum and Classical Computer’ (D Aerts & B D'Hooghe)Buckley-Siler Connectives for Quantum Logics of Fuzzy Sets (J Pykacz & B D'Hooghe)Some Notes on Aerts' Interpretation of the EPR-Paradox and the Violation of Bell-Inequalities (W Christiaens)Quantum Cryptographic Encryption in Three Complementary Bases Through a Mach-Zehnder Set Up (T Durt & B Nagler)Quantum Cryptography Without Quantum Uncertainties (T Durt)How to Construct Darboux-Invariant Equations of von Neumann Type (J L Cie(li(ski)Darboux-Integrable Equations with Non-Abelian Nonlinearities (N V Ustinov & M Czachor)Dressing Chain Equations Associated with Difference Soliton Systems (S Leble)Covariance Approach to the Free Photon Field (M Kuna & J Naudts) Readership: Graduate students, researchers and academics in quantum physics. Keywords:Quantum Mechanics;Quantum Computation;Quantum Information Processing
Book Synopsis Probing the Structure of Quantum Mechanics by : Diederik Aerts
Download or read book Probing the Structure of Quantum Mechanics written by Diederik Aerts and published by World Scientific. This book was released on 2002-06-11 with total page 400 pages. Available in PDF, EPUB and Kindle. Book excerpt: During the last decade, scientists working in quantum theory have been engaging in promising new fields such as quantum computation and quantum information processing, and have also been reflecting on the possibilities of nonlinear behavior on the quantum level. These are challenging undertakings because (1) they will result in new solutions to important technical and practical problems that were unsolvable by the classical approaches (for example, quantum computers can calculate problems that are intractable if one uses classical computers); and (2) they open up new 'hard' problems of a fundamental nature that touch the foundation of quantum theory itself (for example, the contradiction between locality and nonlinearity and the interpretation of quantum computing as a universal process). In this book, one can distinguish two main streams of research to approach the just-mentioned problem field: (1) a theoretical structural part, which concentrates on the elaboration of a nonlinear quantum mechanics and the fundamentals of quantum computation; and (2) a theoretical experimental part, which focuses on the theoretical aspects of applications that arise from new technology and novel research perspectives such as quantum optics and quantum cryptography. Particular attention is also paid to the measurement problem, the classical limit and alternative interpretations (such as the hidden measurement approach). Contents:Probing the Structure of Quantum Mechanics (D Aerts et al.)The Linearity of Quantum Mechanics at Stake: The Description of Separated Quantum Entities (D Aerts & F Valckenborgh)Linearity and Compound Physical Systems: The Case of Two Separated Spin 1/2 Entities (D Aerts & F Valckenborgh)Being and Change: Foundations of a Realistic Operational Formalism (D Aerts)The Classical Limit of the Lattice-Theoretical Orthocomplementation in the Framework of the Hidden-Measurement Approach (T Durt & B D'Hooghe)State Property Systems and Closure Spaces: Extracting the Classical en Non-Classical Parts (D Aerts & D Deses)Hidden Measurements from Contextual Axiomatics (S Aerts)High Energy Approaches to Low Energy Phenomena in Astrophysics (S M Austin)Memory Effects in Atomic Interferometry: A Negative Result (T Durt et al.)Reality and Probability: Introducing a New Type of Probability Calculus (D Aerts)Quantum Computation: Towards the Construction of a ‘Between Quantum and Classical Computer’ (D Aerts & B D'Hooghe)Buckley-Siler Connectives for Quantum Logics of Fuzzy Sets (J Pykacz & B D'Hooghe)Some Notes on Aerts' Interpretation of the EPR-Paradox and the Violation of Bell-Inequalities (W Christiaens)Quantum Cryptographic Encryption in Three Complementary Bases Through a Mach-Zehnder Set Up (T Durt & B Nagler)Quantum Cryptography Without Quantum Uncertainties (T Durt)How to Construct Darboux-Invariant Equations of von Neumann Type (J L Cie(li(ski)Darboux-Integrable Equations with Non-Abelian Nonlinearities (N V Ustinov & M Czachor)Dressing Chain Equations Associated with Difference Soliton Systems (S Leble)Covariance Approach to the Free Photon Field (M Kuna & J Naudts) Readership: Graduate students, researchers and academics in quantum physics. Keywords:Quantum Mechanics;Quantum Computation;Quantum Information Processing
Confucianism, Chinese History and Society is a collection of essays authored by world renowned scholars on Chinese studies, including Professor Ho Peng Yoke (Needham Research Institute), Professor Leo Ou-fan Lee (Harvard University), Professor Philip Y S Leung (Chinese University of Hong Kong), Professor Liu Ts'un-Yan (Australian National University), Professor Tu Wei-Ming (Harvard University), Professor Wang Gungwu (National University of Singapore) and Professor Yue Daiyun (Peking University). The volume covers many important themes and topics in Chinese Studies, including the Confucian perspective on human rights, Nationalism and Confucianism, Confucianism and the development of Science in China, crisis and innovation in contemporary Chinese cultures, plurality of cultures in the context of globalization, and comparative study of the city cultures in modern China. These essays were originally delivered at the Professor Wu Teh Yao Memorial Lectures. Wu Teh Yao (1917–1994) was an educator, political scientist, specialist in Confucianism and original drafter of the United Nation's Universal Declaration of Human Rights.
Book Synopsis Worldviews, Science and Us by : Diederik Aerts
Download or read book Worldviews, Science and Us written by Diederik Aerts and published by World Scientific. This book was released on 2011 with total page 366 pages. Available in PDF, EPUB and Kindle. Book excerpt: Confucianism, Chinese History and Society is a collection of essays authored by world renowned scholars on Chinese studies, including Professor Ho Peng Yoke (Needham Research Institute), Professor Leo Ou-fan Lee (Harvard University), Professor Philip Y S Leung (Chinese University of Hong Kong), Professor Liu Ts'un-Yan (Australian National University), Professor Tu Wei-Ming (Harvard University), Professor Wang Gungwu (National University of Singapore) and Professor Yue Daiyun (Peking University). The volume covers many important themes and topics in Chinese Studies, including the Confucian perspective on human rights, Nationalism and Confucianism, Confucianism and the development of Science in China, crisis and innovation in contemporary Chinese cultures, plurality of cultures in the context of globalization, and comparative study of the city cultures in modern China. These essays were originally delivered at the Professor Wu Teh Yao Memorial Lectures. Wu Teh Yao (1917–1994) was an educator, political scientist, specialist in Confucianism and original drafter of the United Nation's Universal Declaration of Human Rights.
Offers a comprehensive and up-to-date volume on the conceptual and philosophical problems related to the interpretation of quantum mechanics.
Book Synopsis Quantum Worlds by : Olimpia Lombardi
Download or read book Quantum Worlds written by Olimpia Lombardi and published by Cambridge University Press. This book was released on 2019-04-11 with total page 411 pages. Available in PDF, EPUB and Kindle. Book excerpt: Offers a comprehensive and up-to-date volume on the conceptual and philosophical problems related to the interpretation of quantum mechanics.
This clearly explained layman's introduction to quantum physics is an accessible excursion into metaphysics and the meaning of reality. Herbert exposes the quantum world and the scientific and philosophical controversy about its interpretation.
Book Synopsis Quantum Reality by : Nick Herbert
Download or read book Quantum Reality written by Nick Herbert and published by Anchor. This book was released on 1987-02-20 with total page 290 pages. Available in PDF, EPUB and Kindle. Book excerpt: This clearly explained layman's introduction to quantum physics is an accessible excursion into metaphysics and the meaning of reality. Herbert exposes the quantum world and the scientific and philosophical controversy about its interpretation.
This book provides an interdisciplinary perspective on one of the most fascinating and important open questions in science: What is quantum mechanics talking about? Quantum theory is perhaps our best confirmed physical theory. However, despite its great empirical effectiveness and the subsequent technological developments that it gave rise to in the 20th century, from the interpretation of the periodic table of elements to CD players, holograms and quantum state teleportation, it stands even today without a universally accepted interpretation. The novelty of the book comes from the multiple viewpoints and subjects investigated by a group of researchers from Europe and North and South America.
Book Synopsis Probing the Meaning of Quantum Mechanics by : Diederik Aerts
Download or read book Probing the Meaning of Quantum Mechanics written by Diederik Aerts and published by World Scientific Publishing. This book was released on 2018-11-20 with total page 392 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides an interdisciplinary perspective on one of the most fascinating and important open questions in science: What is quantum mechanics talking about? Quantum theory is perhaps our best confirmed physical theory. However, despite its great empirical effectiveness and the subsequent technological developments that it gave rise to in the 20th century, from the interpretation of the periodic table of elements to CD players, holograms and quantum state teleportation, it stands even today without a universally accepted interpretation. The novelty of the book comes from the multiple viewpoints and subjects investigated by a group of researchers from Europe and North and South America.
Theoretical physics has reached an impasse that many feel is a dead end. As the odds of finding evidence for supersymmetry starts to fade, “new” theories have emerged such as “The Multiverse”, “Extra Dimensions”, and “Dimensional Transmutation”. These theories attempt to explain the inexplicable yet at the same time fail to explain the explainable. Many physicists are left frustrated and wondering aloud… How could we have travelled so far down the wrong path? “Any intelligent fool can make things bigger and more complex. It takes a touch of genius - and a lot of courage to move in the opposite direction.” ~ Albert Einstein Engineers know that the right answer is usually a simple one. As Einstein would put it, “The grand aim of all science is to cover the greatest number of empirical facts by logical deduction from the smallest number of hypotheses or axioms.” Gordon’s theory of everything starts with only two postulates; the massless bosons called “Gordon Omnipresent Dots” or “GOD entities” and the E0 energy associated with their initial alignment. These primordial postulates are the only building blocks of a model that explains the inevitable course of events that created our universe. The mathematics created within this process corrects the postulates used to develop the theories of relativity and quantum mechanics which can finally be united and subsequently applied to the infinitesimally small and the infinitely large. We currently use parameters such as distance, time, straight lines, velocity, electric charge, energy fields, and mass. Gordon’s theory of everything begins at a time when none of these parameters existed (prior to the Big Bang). It takes nothing for granted as a predestined process unfolds creating these parameters as they come into existence defined by the evolving mathematics. The Gordon model reveals that energy exists in three separate Gordon energy states described by “The GOD equation”. The interaction between these energy states result in the formation of energy fi elds and the creation of all forces. Most importantly, the structure of space-time from the previously unrecognized G0 energy state provides the solid foundation upon which we are able to build a new understanding of everything in the universe. The simplicity and elegance of Gordon’s theory of everything will astonish everyone as everything falls into place. The purpose of this book is to put the field of physics on a theoretically sound foundation. The structures of the first few fundamental particles and the energy fields they generate are just the beginning. You will have the opportunity to make major contributions. Starting where this book leaves off at the up quark and electron, the race is on to find the internal structure of a neutron and all the particles of the standard model. Don’t be left behind…Be among the first to read Scott S Gordon’s, “The GOD Entity: Gordon’s Theory of Everything”
Book Synopsis The GOD Entity by : Scott S Gordon
Download or read book The GOD Entity written by Scott S Gordon and published by Dog Ear Publishing. This book was released on 2015-09-18 with total page 350 pages. Available in PDF, EPUB and Kindle. Book excerpt: Theoretical physics has reached an impasse that many feel is a dead end. As the odds of finding evidence for supersymmetry starts to fade, “new” theories have emerged such as “The Multiverse”, “Extra Dimensions”, and “Dimensional Transmutation”. These theories attempt to explain the inexplicable yet at the same time fail to explain the explainable. Many physicists are left frustrated and wondering aloud… How could we have travelled so far down the wrong path? “Any intelligent fool can make things bigger and more complex. It takes a touch of genius - and a lot of courage to move in the opposite direction.” ~ Albert Einstein Engineers know that the right answer is usually a simple one. As Einstein would put it, “The grand aim of all science is to cover the greatest number of empirical facts by logical deduction from the smallest number of hypotheses or axioms.” Gordon’s theory of everything starts with only two postulates; the massless bosons called “Gordon Omnipresent Dots” or “GOD entities” and the E0 energy associated with their initial alignment. These primordial postulates are the only building blocks of a model that explains the inevitable course of events that created our universe. The mathematics created within this process corrects the postulates used to develop the theories of relativity and quantum mechanics which can finally be united and subsequently applied to the infinitesimally small and the infinitely large. We currently use parameters such as distance, time, straight lines, velocity, electric charge, energy fields, and mass. Gordon’s theory of everything begins at a time when none of these parameters existed (prior to the Big Bang). It takes nothing for granted as a predestined process unfolds creating these parameters as they come into existence defined by the evolving mathematics. The Gordon model reveals that energy exists in three separate Gordon energy states described by “The GOD equation”. The interaction between these energy states result in the formation of energy fi elds and the creation of all forces. Most importantly, the structure of space-time from the previously unrecognized G0 energy state provides the solid foundation upon which we are able to build a new understanding of everything in the universe. The simplicity and elegance of Gordon’s theory of everything will astonish everyone as everything falls into place. The purpose of this book is to put the field of physics on a theoretically sound foundation. The structures of the first few fundamental particles and the energy fields they generate are just the beginning. You will have the opportunity to make major contributions. Starting where this book leaves off at the up quark and electron, the race is on to find the internal structure of a neutron and all the particles of the standard model. Don’t be left behind…Be among the first to read Scott S Gordon’s, “The GOD Entity: Gordon’s Theory of Everything”
Human beings experience a world of objects: bounded entities that occupy space and persist through time. Our actions are directed toward objects, and our language describes objects. We categorize objects into kinds that have different typical properties and behaviors. We regard some kinds of objects – each other, for example – as animate agents capable of independent experience and action, while we regard other kinds of objects as inert. We re-identify objects, immediately and without conscious deliberation, after days or even years of non-observation, and often following changes in the features, locations, or contexts of the objects being re-identified. Comparative, developmental and adult observations using a variety of approaches and methods have yielded a detailed understanding of object detection and recognition by the visual system and an advancing understanding of haptic and auditory information processing. Many fundamental questions, however, remain unanswered. What, for example, physically constitutes an “object”? How do specific, classically-characterizable object boundaries emerge from the physical dynamics described by quantum theory, and can this emergence process be described independently of any assumptions regarding the perceptual capabilities of observers? How are visual motion and feature information combined to create object information? How are the object trajectories that indicate persistence to human observers implemented, and how are these trajectory representations bound to feature representations? How, for example, are point-light walkers recognized as single objects? How are conflicts between trajectory-driven and feature-driven identifications of objects resolved, for example in multiple-object tracking situations? Are there separate “what” and “where” processing streams for haptic and auditory perception? Are there haptic and/or auditory equivalents of the visual object file? Are there equivalents of the visual object token? How are object-identification conflicts between different perceptual systems resolved? Is the common assumption that “persistent object” is a fundamental innate category justified? How does the ability to identify and categorize objects relate to the ability to name and describe them using language? How are features that an individual object had in the past but does not have currently represented? How are categorical constraints on how objects move or act represented, and how do such constraints influence categorization and the re-identification of individuals? How do human beings re-identify objects, including each other, as persistent individuals across changes in location, context and features, even after gaps in observation lasting months or years? How do human capabilities for object categorization and re-identification over time relate to those of other species, and how do human infants develop these capabilities? What can modeling approaches such as cognitive robotics tell us about the answers to these questions? Primary research reports, reviews, and hypothesis and theory papers addressing questions relevant to the understanding of perceptual object segmentation, categorization and individual identification at any scale and from any experimental or modeling perspective are solicited for this Research Topic. Papers that review particular sets of issues from multiple disciplinary perspectives or that advance integrative hypotheses or models that take data from multiple experimental approaches into account are especially encouraged.
Book Synopsis How Humans Recognize Objects: Segmentation, Categorization and Individual Identification by : Chris Fields
Download or read book How Humans Recognize Objects: Segmentation, Categorization and Individual Identification written by Chris Fields and published by Frontiers Media SA. This book was released on 2016-08-18 with total page 267 pages. Available in PDF, EPUB and Kindle. Book excerpt: Human beings experience a world of objects: bounded entities that occupy space and persist through time. Our actions are directed toward objects, and our language describes objects. We categorize objects into kinds that have different typical properties and behaviors. We regard some kinds of objects – each other, for example – as animate agents capable of independent experience and action, while we regard other kinds of objects as inert. We re-identify objects, immediately and without conscious deliberation, after days or even years of non-observation, and often following changes in the features, locations, or contexts of the objects being re-identified. Comparative, developmental and adult observations using a variety of approaches and methods have yielded a detailed understanding of object detection and recognition by the visual system and an advancing understanding of haptic and auditory information processing. Many fundamental questions, however, remain unanswered. What, for example, physically constitutes an “object”? How do specific, classically-characterizable object boundaries emerge from the physical dynamics described by quantum theory, and can this emergence process be described independently of any assumptions regarding the perceptual capabilities of observers? How are visual motion and feature information combined to create object information? How are the object trajectories that indicate persistence to human observers implemented, and how are these trajectory representations bound to feature representations? How, for example, are point-light walkers recognized as single objects? How are conflicts between trajectory-driven and feature-driven identifications of objects resolved, for example in multiple-object tracking situations? Are there separate “what” and “where” processing streams for haptic and auditory perception? Are there haptic and/or auditory equivalents of the visual object file? Are there equivalents of the visual object token? How are object-identification conflicts between different perceptual systems resolved? Is the common assumption that “persistent object” is a fundamental innate category justified? How does the ability to identify and categorize objects relate to the ability to name and describe them using language? How are features that an individual object had in the past but does not have currently represented? How are categorical constraints on how objects move or act represented, and how do such constraints influence categorization and the re-identification of individuals? How do human beings re-identify objects, including each other, as persistent individuals across changes in location, context and features, even after gaps in observation lasting months or years? How do human capabilities for object categorization and re-identification over time relate to those of other species, and how do human infants develop these capabilities? What can modeling approaches such as cognitive robotics tell us about the answers to these questions? Primary research reports, reviews, and hypothesis and theory papers addressing questions relevant to the understanding of perceptual object segmentation, categorization and individual identification at any scale and from any experimental or modeling perspective are solicited for this Research Topic. Papers that review particular sets of issues from multiple disciplinary perspectives or that advance integrative hypotheses or models that take data from multiple experimental approaches into account are especially encouraged.
