A Signed Particle Formulation of Non
... R. Feynman [3], L.V. Keldysh [4], K. Husimi [5], D. Bohm [6], [7] are the most popular ones. While, at a first glance they seem to be drastically different theories, it can be shown that they are all mathematically equivalent. As a matter of fact, they offer the same set of predictions and can be se ...
... R. Feynman [3], L.V. Keldysh [4], K. Husimi [5], D. Bohm [6], [7] are the most popular ones. While, at a first glance they seem to be drastically different theories, it can be shown that they are all mathematically equivalent. As a matter of fact, they offer the same set of predictions and can be se ...
Nilpotence - Nature`s Code Foundation
... field in both its Lorentz and Einstein General Relativistic invariant forms [2]. R&D’s work thus provides a counterexample to the widely held established view that Einstein’s General Relativity (expressed now in the form of a multivariate 4 vector group representation) is incompatible with quantum m ...
... field in both its Lorentz and Einstein General Relativistic invariant forms [2]. R&D’s work thus provides a counterexample to the widely held established view that Einstein’s General Relativity (expressed now in the form of a multivariate 4 vector group representation) is incompatible with quantum m ...
Schrödinger Equation
... • As temperature increases, the total energy emitted increases, because the total area under the curve increases. • The curve gets infinitely close to the x-axis but never touches it. ...
... • As temperature increases, the total energy emitted increases, because the total area under the curve increases. • The curve gets infinitely close to the x-axis but never touches it. ...
research statement in pdf
... system to obtain the statistics of random states. Physical states, are those obtained by evolution with a local Hamiltonian for a reasonable amount of time, namely a time scaling with the size of the system. If physical states are not typical, can they still have typical entanglement? We need to ans ...
... system to obtain the statistics of random states. Physical states, are those obtained by evolution with a local Hamiltonian for a reasonable amount of time, namely a time scaling with the size of the system. If physical states are not typical, can they still have typical entanglement? We need to ans ...
Complementarity in Quantum Mechanics and Classical Statistical
... classical object as a photographic plate) radically affects its initial state, e.g.: electron is forced to localize in a very narrow region (the spot). In this case, a single measuring process is useless to reveal the wave properties of its previous quantum state. To rebuild the wave function Ψ (up ...
... classical object as a photographic plate) radically affects its initial state, e.g.: electron is forced to localize in a very narrow region (the spot). In this case, a single measuring process is useless to reveal the wave properties of its previous quantum state. To rebuild the wave function Ψ (up ...
Microscopic simulations in physics - University of Illinois Urbana
... approaches the abilities of this intelligent being, complete prediction will always remain infinitely far away. His intuition about complete predictability has been borne out: in general, dynamics is chaotic, thus making long-range forecasts unreliable because of their sensitivity to initial conditi ...
... approaches the abilities of this intelligent being, complete prediction will always remain infinitely far away. His intuition about complete predictability has been borne out: in general, dynamics is chaotic, thus making long-range forecasts unreliable because of their sensitivity to initial conditi ...
A Quantum Information Processing Explanation of Disjunction Effects
... may have a tendency to believe simultaneously that a defendant is surely guilty and surely not guilty, and this is not the same as believing the defendant is moderately guilty. How can the quantum model account for the disjunction effect? Shafir and Tversky (1992) offered a possible explanation that ...
... may have a tendency to believe simultaneously that a defendant is surely guilty and surely not guilty, and this is not the same as believing the defendant is moderately guilty. How can the quantum model account for the disjunction effect? Shafir and Tversky (1992) offered a possible explanation that ...
Classical and Quantum Error Correction
... Introduction: why quantum error correction? • Quantum states of superposition (which stores quantum information) extremely fragile. • Quantum error correction more tricky than classical error correction. • In the field of quantum computation, what is possible in theory is very far off from what can ...
... Introduction: why quantum error correction? • Quantum states of superposition (which stores quantum information) extremely fragile. • Quantum error correction more tricky than classical error correction. • In the field of quantum computation, what is possible in theory is very far off from what can ...
Fixed points of quantum operations
... In the sequel we shall need the following theorem of M.-D. Choi [4]. Theorem 2.1. Suppose that φ is a completely contractive and completely positive map from a unital C ∗ -algebra C into B(H). Then φ(C)∗ φ(C) ≤ φ(C ∗ C) for every C ∈ C. Moreover, if φ(C)∗ φ(C) = φ(C ∗ C) for some C ∈ C, then for all ...
... In the sequel we shall need the following theorem of M.-D. Choi [4]. Theorem 2.1. Suppose that φ is a completely contractive and completely positive map from a unital C ∗ -algebra C into B(H). Then φ(C)∗ φ(C) ≤ φ(C ∗ C) for every C ∈ C. Moreover, if φ(C)∗ φ(C) = φ(C ∗ C) for some C ∈ C, then for all ...
presentation source
... Some physicists try to derive probabilities of actual outcomes directly from field theory, without a Hamiltonian or potential. Is the idea of a potential only an approximation suitable for some energy scales? – I would ask: Are there not still some roles for mass, kinetic and ...
... Some physicists try to derive probabilities of actual outcomes directly from field theory, without a Hamiltonian or potential. Is the idea of a potential only an approximation suitable for some energy scales? – I would ask: Are there not still some roles for mass, kinetic and ...
Quantum Walks in Discrete and Continuous Time
... • Multi-layer interconnects allow many crossovers and complex couplings.! ...
... • Multi-layer interconnects allow many crossovers and complex couplings.! ...
Heat Engine Driven by Purely Quantum Information
... represents the physical realization of a rather vague terminology, the demon. It has been proposed that the extractable work is given by the so-called QC mutual information between an engine and a memory [8]. Here ‘‘QC’’ emphasizes that the local measurement (thus giving rise to classical informatio ...
... represents the physical realization of a rather vague terminology, the demon. It has been proposed that the extractable work is given by the so-called QC mutual information between an engine and a memory [8]. Here ‘‘QC’’ emphasizes that the local measurement (thus giving rise to classical informatio ...
The Meaning of Elements of Reality and Quantum Counterfactuals
... I took part in the development of the TSQT, ( 1± 3 ) and I believe that this is an important and useful formalism. It has already helped us to find several peculiar quantum phenomena tested in laboratories in the world.( 4, 5 ) In the framework of the TSQT, I have used terms such as ``elements of re ...
... I took part in the development of the TSQT, ( 1± 3 ) and I believe that this is an important and useful formalism. It has already helped us to find several peculiar quantum phenomena tested in laboratories in the world.( 4, 5 ) In the framework of the TSQT, I have used terms such as ``elements of re ...
Lecture 2 - Artur Ekert
... The optical Mach-Zehnder interferometer is just one way of performing a quantum interference experiment – there are many others. Atoms, molecules, nuclear spins and many other quantum objects can be prepared in two distinct states, internal or external, labelled as 0 and 1 and manipulated so that tr ...
... The optical Mach-Zehnder interferometer is just one way of performing a quantum interference experiment – there are many others. Atoms, molecules, nuclear spins and many other quantum objects can be prepared in two distinct states, internal or external, labelled as 0 and 1 and manipulated so that tr ...