Anderson transition ???????? Critical Statistics
... In billiards it is just the ballistic travel time. In kicked rotors and quantum maps it is the time needed to explore a fixed basis. In billiards with some (Coulomb) a potential inside one can obtain this time by mapping the billiard onto an Anderson model. ...
... In billiards it is just the ballistic travel time. In kicked rotors and quantum maps it is the time needed to explore a fixed basis. In billiards with some (Coulomb) a potential inside one can obtain this time by mapping the billiard onto an Anderson model. ...
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... The parameter in the Schrödinger equation, , is a state variable. It is not directly associated with any physical quantity itself, but all the information can be extracted from it. Also, remember that the Schrödinger equation was only half of the “real” equation from which it was derived. So to de ...
... The parameter in the Schrödinger equation, , is a state variable. It is not directly associated with any physical quantity itself, but all the information can be extracted from it. Also, remember that the Schrödinger equation was only half of the “real” equation from which it was derived. So to de ...
Announcement Station #2 Stars Lecture 9 Basic Physics The Laws
... be crucial when we work with subatomic particles. • Are electrons waves or particles? • Under some circumstances electrons act like particles, while under other circumstances they behave like waves. In fact, according to the uncertainty principle, all subatomic particles exhibit, “wave-particle dual ...
... be crucial when we work with subatomic particles. • Are electrons waves or particles? • Under some circumstances electrons act like particles, while under other circumstances they behave like waves. In fact, according to the uncertainty principle, all subatomic particles exhibit, “wave-particle dual ...
Quantum Analysis on Time Behavior of a Lengthening Pendulum
... Bohr tried to merge quantum and classical mechanics by introducing a correspondence principle between them. Even though the results of quantum and classical descriptions for a system more or less overlap under particular limits, their underlying principles are quite different from each other. There ...
... Bohr tried to merge quantum and classical mechanics by introducing a correspondence principle between them. Even though the results of quantum and classical descriptions for a system more or less overlap under particular limits, their underlying principles are quite different from each other. There ...
LAUDISA, Counterfactual reasoning, realism and QM_last version
... paper, for instance, Stefan Wolf proposed an algorithmic-complexity view of nonlocality exactly with the motivation that it need not rely on the so-called counterfactual definiteness, taken by the author to be a standard assumption of the Bell theorem in any of its variants. According to Wolf “nonlo ...
... paper, for instance, Stefan Wolf proposed an algorithmic-complexity view of nonlocality exactly with the motivation that it need not rely on the so-called counterfactual definiteness, taken by the author to be a standard assumption of the Bell theorem in any of its variants. According to Wolf “nonlo ...
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... I. Theorems that stem from the following general assumptions about the character of the macroscopic motion a r e of great importance in statistical thermodynamics: 1) the microscopic motion obeys the laws of mechanics and is, therefore, reversible in time; 2) a system in thermodynamic equilibrium wi ...
... I. Theorems that stem from the following general assumptions about the character of the macroscopic motion a r e of great importance in statistical thermodynamics: 1) the microscopic motion obeys the laws of mechanics and is, therefore, reversible in time; 2) a system in thermodynamic equilibrium wi ...
Can a quantum state over time resemble a quantum state at a single
... As mentioned, all three constructions, LS, FJV, and W, satisfy the assumption of Hermiticity. Below, we consider the consequences of dropping it. Preservation of probabilistic mixtures The output state of a quantum channel for a given input state is a linear function of both the input state and the ...
... As mentioned, all three constructions, LS, FJV, and W, satisfy the assumption of Hermiticity. Below, we consider the consequences of dropping it. Preservation of probabilistic mixtures The output state of a quantum channel for a given input state is a linear function of both the input state and the ...
A Global Equilibrium as the Foundation of Quantum
... with (universal) wave function now denoted by Ψ. Focus on a subsystem with generic configuration variables x, i.e., on a splitting q = (x, y) where y represents the configuration of the environment of the x-system. The actual particle configurations are accordingly denoted by X and Y, i.e., Q = (X, ...
... with (universal) wave function now denoted by Ψ. Focus on a subsystem with generic configuration variables x, i.e., on a splitting q = (x, y) where y represents the configuration of the environment of the x-system. The actual particle configurations are accordingly denoted by X and Y, i.e., Q = (X, ...
Measuring the quantum mechanical wave function
... been puzzlement over the physical meaning of SchroÈ dinger’s wave function w (r). Is it analogous to other ® elds in nature, such as the gravitational or electric ® elds? Probably not Ð these are physical ® elds, which represent concrete forces and thus can be directly measured by using a suitable i ...
... been puzzlement over the physical meaning of SchroÈ dinger’s wave function w (r). Is it analogous to other ® elds in nature, such as the gravitational or electric ® elds? Probably not Ð these are physical ® elds, which represent concrete forces and thus can be directly measured by using a suitable i ...