Classical Mechanics and Quantum Mechanics:  An Historic-Axiomatic Approach

Classical Mechanics and Quantum Mechanics: An Historic-Axiomatic Approach

This unique textbook presents a novel, axiomatic pedagogical path from classical to quantum physics. Readers are introduced to the description of classical mechanics, which rests on Euler’s and ...
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Applications

Pp. 166-175 (10)

Peter Enders

Abstract

This chapter considers, (i), the time-dependent ‘tunnel effect’ (as generalization of the stationary one in Section 10.1) and, (ii), coherent states as providing a smooth transition to the classical limit case, Fcl(x, t) = xchδ(x − x(t)), Gcl(p, t) = pchδ(p − p(t)). The reader is encouraged to study several ansatzes for the propagation of a time-dependent wave function into the classically forbidden region. Schrödinger’s 1926 calculations on the classical limit of wave mechanics by means of the invented by him coherent wave functions are completed for the harmonic oscillator. Here, the physical meaning of the weight function FE (x) (see Chapter 3) is most helpful, again.

Keywords:

Classical limit, Coherent states, Harmonic oscillator, Limiting function, Schrödinger, Time-dependent tunneling, Tunnel effect.

Affiliation:

Taraz State Pedagogical University, Kazakhstan.