Classical limit for quantum mechanical energy eigenfunctions
... this picture implied in the classical calculational method is a valid one, because the tracks are experimentally verifiable. In a previous work21, we have developed a method of obtaining the classical limit for scattering of particles by a potential field in terms of a dimensionless limit parameter. ...
... this picture implied in the classical calculational method is a valid one, because the tracks are experimentally verifiable. In a previous work21, we have developed a method of obtaining the classical limit for scattering of particles by a potential field in terms of a dimensionless limit parameter. ...
talk by Paul McGuirk
... 35th Annual IEEE Symposium on Foundations of Computer Science, Santa Fe, NM, Nov. 20-22, 1994. (Available electronically at quant-ph/9508027) [Shor’s original paper describing the quantum algorithm used to factor integers]. ...
... 35th Annual IEEE Symposium on Foundations of Computer Science, Santa Fe, NM, Nov. 20-22, 1994. (Available electronically at quant-ph/9508027) [Shor’s original paper describing the quantum algorithm used to factor integers]. ...
= ∫ ∫ - at www.arxiv.org.
... applied in all cases and on all level of sizes. This confidence may be based on the assumption that the physical laws describe an unique reality with a common entity. Quantum mechanics, in contrast to other physical theory, describes no unique reality but only phenomena. This unique feature of quant ...
... applied in all cases and on all level of sizes. This confidence may be based on the assumption that the physical laws describe an unique reality with a common entity. Quantum mechanics, in contrast to other physical theory, describes no unique reality but only phenomena. This unique feature of quant ...
Probability, Expectation Value and Uncertainty
... the operator represents all the possible results that could be obtained if the associated physical observable were to be measured. The eigenstates of the operator are the states of the system for which the associated eigenvalue would be, with 100% certainty, the measured result, if the observable we ...
... the operator represents all the possible results that could be obtained if the associated physical observable were to be measured. The eigenstates of the operator are the states of the system for which the associated eigenvalue would be, with 100% certainty, the measured result, if the observable we ...
An Effective Quantum Potential for Particle
... quantum-corrected one. The pseudo-differential operator (PDO) for the effective quantum potential we build on here is based on a perturbation theory around thermal equilibrium [1, 2], was first derived in [3], and used to include the interaction between potential wells and single electrons in previo ...
... quantum-corrected one. The pseudo-differential operator (PDO) for the effective quantum potential we build on here is based on a perturbation theory around thermal equilibrium [1, 2], was first derived in [3], and used to include the interaction between potential wells and single electrons in previo ...
