There exists a coassociative and cocommutative coproduct in the linear space spanned by the two algebraic products of a classical
Hamilton algebra (the algebraic structure underlying classical mechanics [1]). The transition from classical to quantum Hamilton
algebra (the algebraic structure underlying quantum mechanics) is anħ-deformation which preserves not only the Lie property of the classical Hamilton algebra but also the coassociativity and
cocommutativity of the above coproduct. By explicit construction we obtain the algebraic structures of theq-deformed Hamilton algebras which preserve the said properties of the coproduct. Some algorithms of these structures are obtained
and their implications discussed. The problem of consistency of time evolution with theq-deformed kinematical structure is discussed. A characteristic distinction between the parametersħ andq is brought out to stress the fact thatq cannot be regarded as a fundamental constant. 相似文献
Quantum mechanics presumes classical measuring instruments with which they interact. The problem of measurement interaction
between classical and quantum systems is posed and solved. The restriction to compatible measurements comes about naturally
as the condition for the integrity of the classical system. A technical device is the perspective on classical mechanics as
quantum mechanics with essentially hidden dynamical variables.
Work supported in part by U.S. Atomic Energy Commission, ERDA. 相似文献
A Poisson bracket structure is defined on associative algebras which allows for a generalized Hamiltonian dynamics. Both classical and quantum mechanics are shown to be special cases of the general formalism. 相似文献
A quantum-mechanical generalisation of Carathéodory’s theorem in classical dynamics is established. Several related properties
of classical canonical transformations are also generalised to the quantum case. 相似文献
The classical and quantum physics seem to divide nature into two domains macroscopic and microscopic. It is also certain that
they accurately predict experimental results in their respective regions. However, the reduction theory, namely, the general
derivation of classical results from the quantum mechanics is still a far cry. The outcome of some recent investigations suggests
that there possibly does not exist any universal method for obtaining classical results from quantum mechanics. In the present
work we intend to investigate the problem phenomenonwise and address specifically the phenomenon of scattering. We suggest
a general approach to obtain the classical limit formula from the phase shiftδl, in the limiting value of a suitable parameter on whichδl depends. The classical result has been derived for three different potential fields in which the phase shifts are exactly
known. Unlike the current wisdom that the classical limit can be reached only in the high energy regime it is found that the
classical limit parameter in addition to other factors depends on the details of the potential fields. In the last section
we have discussed the implications of the results obtained. 相似文献
We study the noncoInmutative nonrelativistic quantum dynamics of a neutral particle, which possesses an electric qaudrupole moment, in the presence of an external magnetic field. First, by intro ducing a shift for the magnetic field, we give the Schrodinger equations in the presence of an external magnetic field both on a noncommutative space and a noncomlnutative phase space, respectively. Then by solving the SchrSdinger equations both on a noneommutative space and a noncommutative phase space, we obtain quantum phases of the electric quadrupole moment, respectively. Wc demonstrate that these phases are geometric and dispersive. 相似文献
A stochastic theory approach is used to formulate the theory of quantum mechanical motion. Apart from giving a unifying point of view to quantum mechanics and stochastic theory, the new formulation is not limited to forces derivable from a potential. A nonlinear dynamical law is deduced in contradistinction to previous works in whichad hoc linear laws are postulated. 相似文献
By considering (non‐relativistic) quantum mechanics as it is done in practice in particular in condensed‐matter physics, it is argued that a deterministic, unitary time evolution within a chosen Hilbert space always has a limited scope, leaving a lot of room for embedding the quantum‐classical transition into our current theories without recurring to difficult‐to‐accept interpretations of quantum mechanics. Nonunitary projections to initial and final states, the breaking of time‐reversal symmetry, a change of Hilbert space, and the introduction of classical concepts such as external potentials or localized atomic nuclei are widespread in quantum mechanical calculations. Furthermore, quantum systems require classical environments that enable the symmetry breaking that is necessary for creating the atomic configurations of molecules and crystals. This paper argues that such classical environments are provided by finite‐temperature macroscopic systems in which the range of quantum correlations and entanglement is limited. This leads to classical behavior on larger scales, and to collapse‐like events in all dynamical processes that become coupled to the thermalized degrees of freedom.
The problem of selection of preferred basis during passage from quantum to classical systems is treated with the help of a
simple example of a 2-state system like the sugar molecule. A simple principle leading to this selection is stated and demonstrated
in case of the chosen example. The principle, stated simply is that the preferred basis is the one in which the system environment
interaction hamiltonian is diagonal.
Talk given at the International Symposium on Theoretical Physics, Bangalore, November 1984. 相似文献
We investigate a two-level atom interacting with a quantized cavity field and a classical driving field in the presence of phase decoherence and find that a stationary quantum discord can arise in the interaction of the atom and cavity field as the time turns to infinity.We also find that the stationary quantum discord can be increased by applying a classical driving field.Furthermore,we explore the quantum discord dynamics of two identical non-interacting two-level atoms independently interacting with a quantized cavity field and a classical driving field in the presence of phase decoherence.Results show that the quantum discord between two atoms is more robust than entanglement under phase decoherence and the classical driving field can help to improve the amount of quantum discord of the two atoms. 相似文献
We investigate a two-level atom interacting with a quantized cavity field and a classical driving field in the presence of phase decoherence and find that a stationary quantum discord can arise in the interaction of the atom and cavity field as the time turns to infinity. We also find that the stationary quantum discord can be increased by applying a classical driving field. Furthermore, we explore the quantum discord dynamics of two identical non-interacting two-level atoms independently interacting with a quantized cavity field and a classical driving field in the presence of phase decoherence. Results show that the quantum discord between two atoms is more robust than entanglement under phase decoherence and the classical driving field can help to improve the amount of quantum discord of the two atoms. 相似文献
We study quantum mechanical systems of particles with Bose or Fermi statistics interacting via two-body potentials of positive type in thermal equilibrium. We rewrite partition functions, reduced density matrices (RDMs), and correlation functions in terms of Wiener and Gaussian functional integrals (sine-Gordon transformation). This permits us, e.g., to apply correlation inequalities. Our main results include an analysis of stability versus instability in the grand canonical ensemble and, for charge-conjugation-invariant systems, upper and lower bounds on RDMs, the existence of the thermodynamic limit of pressure, RDMs and correlation functions, an inequality comparing correlations with Fermi statistics to ones with Bose statistics, and inequalities which are important in the study of Bose-Einstein condensation and of superconductivity.This research was done in part during the author's stay at the Department of Physics of Princeton University and was partially supported by the NSF under grant NSF PHY 76-80958. 相似文献
For the first time it is shown that the logic of quantum mechanics can be derived from classical physics. An orthomodular
lattice of propositions characteristic of quantum logic, is constructed for manifolds in Einstein’s theory of general relativity.
A particle is modelled by a topologically non-trivial 4-manifold with closed timelike curves—a 4-geon, rather than as an evolving
3-manifold. It is then possible for both the state preparationand measurement apparatus to constrain the results of experiments. It is shown that propositions about the results of measurements
can satisfy a non-distributive logic rather than the Boolean logic of classical systems. Reasonable assumptions about the
role of the measurement apparatus leads to an orthomodular lattice of propositions characteristic of quantum logic. 相似文献
We describe both quantum particles and classical particles in terms of a classical statistical ensemble, with a probability distribution in phase space. By use of a wave function in phase space both can be treated in the same quantum formalism. Quantum particles are characterized by a specific choice of observables and time evolution of the probability density. Then interference and tunneling are found within classical statistics. Zwitters are (effective) one-particle states for which the time evolution interpolates between quantum and classical particles. Experimental bounds on a small parameter can test quantum mechanics. 相似文献
We study the properties of a causal quantum theory in phase space for which phase space classical mechanics is obtained as a limit. The causal quantum theory is obtained from a generalized coherent state representation. The behavior for the one particle case and the manyparticle case are illustrated for the harmonic oscillator. We also answer to the arguments against the possibility of constructing causal theories in phase space. 相似文献
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