Time, Quantum Mechanics, and Probability
... probability theory enters into quantum mechanics as a measure over the space of histories, in parallel to classical statistical mechanics, where probability is de…ned in terms of a measure on phase space. In this (Everett 1957, 1973) he was brief but explicit. Insofar as he acknowledged that someth ...
... probability theory enters into quantum mechanics as a measure over the space of histories, in parallel to classical statistical mechanics, where probability is de…ned in terms of a measure on phase space. In this (Everett 1957, 1973) he was brief but explicit. Insofar as he acknowledged that someth ...
Resonant Tunneling Between Quantum Hall Edge States
... quantized Hall coefficient as I = ν(e2 /h)VH . This immediately establishes the universal result within a given Hall plateau: g = ν. This remarkable fact makes the resonance line shape completely universal, model-independent and fully determined (up to an overall temperature scale). The fractional q ...
... quantized Hall coefficient as I = ν(e2 /h)VH . This immediately establishes the universal result within a given Hall plateau: g = ν. This remarkable fact makes the resonance line shape completely universal, model-independent and fully determined (up to an overall temperature scale). The fractional q ...
Path Integrals and the Quantum Routhian David Poland
... The first is using the Lagrangian, which is a function of coordinates and their derivatives, and for which the equations of motion are a set of second order differential equations. The second is using the Hamiltonian, which is a function of coordinates and momenta, and for which the equations of mot ...
... The first is using the Lagrangian, which is a function of coordinates and their derivatives, and for which the equations of motion are a set of second order differential equations. The second is using the Hamiltonian, which is a function of coordinates and momenta, and for which the equations of mot ...
The quantum world is not built up from correlations - Philsci
... the global state of a composite quantum system can be completely determined by specifying correlations (joint probability distributions) when sufficient local measurements are performed on each subsystem. It thus suffices to consider only correlations when completely specifying the state of the comp ...
... the global state of a composite quantum system can be completely determined by specifying correlations (joint probability distributions) when sufficient local measurements are performed on each subsystem. It thus suffices to consider only correlations when completely specifying the state of the comp ...
Negative probability
... measures” are observed in any separated quantum object as well as in the systems of quantum objects. They reflect the immediate interaction of probabilities without any “hidden” parameters. I. Why does negative probability appear in quantum mechanics? Negative probability appears in phase-space form ...
... measures” are observed in any separated quantum object as well as in the systems of quantum objects. They reflect the immediate interaction of probabilities without any “hidden” parameters. I. Why does negative probability appear in quantum mechanics? Negative probability appears in phase-space form ...
Physics and Philosophy
... Reinterpretation of Kinetic and Mechanical Relationships', in which he proposed a reinterpretation of the basic concepts of mechanics, and this was followed by the publication of his indeterminacy principle in 1927. In that year he became professor at the University of Leipzig and held the post unti ...
... Reinterpretation of Kinetic and Mechanical Relationships', in which he proposed a reinterpretation of the basic concepts of mechanics, and this was followed by the publication of his indeterminacy principle in 1927. In that year he became professor at the University of Leipzig and held the post unti ...
Heisenberg microscope and which-way experiments
... 1. Historical development of the wave-particle duality In 1802 Young performed an experiment, which is nowadays known as Young’s double-slit experiment. It is one of the most important experiments of wave theory and a clear example of the diffraction of light conducted with essentially basic scient ...
... 1. Historical development of the wave-particle duality In 1802 Young performed an experiment, which is nowadays known as Young’s double-slit experiment. It is one of the most important experiments of wave theory and a clear example of the diffraction of light conducted with essentially basic scient ...
Simulation of Quantum Gates on a Novel GPU Architecture
... such computational requirements [7, 11], and will allow the emulation of quantum computers of a greater dimension in a reasonable time. Although the number of known algorithms that are really effective [8, 13, 5] is actually reduced, and there are no physical implementations of operative dimensions, ...
... such computational requirements [7, 11], and will allow the emulation of quantum computers of a greater dimension in a reasonable time. Although the number of known algorithms that are really effective [8, 13, 5] is actually reduced, and there are no physical implementations of operative dimensions, ...
the emergent dualism view of quantum physics and consciousness
... Thus, functional emergence is a general principle of complex systems, such as the system of reality covered by the hierarchy of quantum physics, macro physics, chemistry, biology, neurophysiology, and the psychology and philosophy of consciousness. Each level is in many respects emergent from the pr ...
... Thus, functional emergence is a general principle of complex systems, such as the system of reality covered by the hierarchy of quantum physics, macro physics, chemistry, biology, neurophysiology, and the psychology and philosophy of consciousness. Each level is in many respects emergent from the pr ...
Boson sampling
... Instead of building a device that implements Boson-Sampling, program a classical computer to efficiently sample from the uniform distribution. If one chooses U at random, the chances of being caught cheating becomes large only after exponentially many samples. The findings of any experimental realiz ...
... Instead of building a device that implements Boson-Sampling, program a classical computer to efficiently sample from the uniform distribution. If one chooses U at random, the chances of being caught cheating becomes large only after exponentially many samples. The findings of any experimental realiz ...
An Introduction to Quantum Field Theory, Mrinal Dasgupta
... The development of Quantum Field Theory is surely one of the most important achievements in modern physics. Presently, all observational evidence points to the fact that Quantum Field Theory (QFT) provides a good description of all known elementary particles, as well as for particle physics beyond t ...
... The development of Quantum Field Theory is surely one of the most important achievements in modern physics. Presently, all observational evidence points to the fact that Quantum Field Theory (QFT) provides a good description of all known elementary particles, as well as for particle physics beyond t ...
Linköping University Post Print Ion streaming instability in a quantum dusty magnetoplasma
... the dust charge 共qd = −eZd0 for negatively charged dust grains and eZd0 for positively charged dust grains, where Zd0 is the number of charges on dust grains兲, and n j0 is the unperturbed particle number density 共j is e for the electrons, i for ions, and d for dust grains兲. We suppose that the micro ...
... the dust charge 共qd = −eZd0 for negatively charged dust grains and eZd0 for positively charged dust grains, where Zd0 is the number of charges on dust grains兲, and n j0 is the unperturbed particle number density 共j is e for the electrons, i for ions, and d for dust grains兲. We suppose that the micro ...
Google DeepMind Neural Networks
... Duality and the electron’s spin also, building the Bridge between the Classical and Quantum Theories. The Planck Distribution Law of the electromagnetic oscillators explains the electron/proton mass rate and the Weak and Strong Interactions by the diffraction patterns. The Weak Interaction changes t ...
... Duality and the electron’s spin also, building the Bridge between the Classical and Quantum Theories. The Planck Distribution Law of the electromagnetic oscillators explains the electron/proton mass rate and the Weak and Strong Interactions by the diffraction patterns. The Weak Interaction changes t ...
Quantum aspects of brain activity and the role of consciousness
... quantum mechanics, brain activities, and consciousness (14). On the part of quantum physics the impetus came from the interpretation of the measuring process, which is still on debate, even after more than 60 years of overwhelmingly successful applications of quantum theory. However, there is the qu ...
... quantum mechanics, brain activities, and consciousness (14). On the part of quantum physics the impetus came from the interpretation of the measuring process, which is still on debate, even after more than 60 years of overwhelmingly successful applications of quantum theory. However, there is the qu ...
pages 851-900 - Light and Matter
... to physicists early in the game was that perhaps the interference effects came from photons interacting with each other. By analogy, a water wave consists of moving water molecules, and interference of water waves results ultimately from all the mutual pushes and pulls of the molecules. This interpr ...
... to physicists early in the game was that perhaps the interference effects came from photons interacting with each other. By analogy, a water wave consists of moving water molecules, and interference of water waves results ultimately from all the mutual pushes and pulls of the molecules. This interpr ...
A mechanistic classical laboratory situation violating the Bell
... located in different widely separated regions of space while they are flying apart. And indeed, for two entities located in widely separated regions of space, with no connection between them, the Bell locality hypothesis seems to be a natural hypothesis to be satisfied. But for two entities that act ...
... located in different widely separated regions of space while they are flying apart. And indeed, for two entities located in widely separated regions of space, with no connection between them, the Bell locality hypothesis seems to be a natural hypothesis to be satisfied. But for two entities that act ...