Bohr - Sommerfeld quantization rules in the semiclassical limit

George A. Hagedorn; Sam L. Robinson

doi:10.1088/0305-4470/31/50/009

Bohr - Sommerfeld quantization rules in the semiclassical limit

George A. Hagedorn, Sam L. Robinson

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11 Scopus citations

Abstract

We study one-dimensional quantum mechanical systems in the semiclassical limit. We construct a lowest order quasimode ψ(ℏ) for the Hamiltonian H(ℏ) when the energy E and Planck's constant ℏ satisfy the appropriate Bohr - Sommerfeld conditions. This means that ψ(ℏ) is an approximate solution of the Schrödinger equation in the sense that \\[H(ℏ) - E]ψ(ℏ)|| ≤ Cℏ^3/2||ψ(ℏ)||. It follows that H(ℏ) has some spectrum within a distance Cℏ^3/2 of E. Although the result has a long history, our time-dependent construction technique is novel and elementary.

Original language	English (US)
Pages (from-to)	10113-10129
Number of pages	17
Journal	Journal of Physics A: Mathematical and General
Volume	31
Issue number	50
DOIs	https://doi.org/10.1088/0305-4470/31/50/009
State	Published - Dec 18 1998
Externally published	Yes

ASJC Scopus subject areas

Statistical and Nonlinear Physics
Mathematical Physics
General Physics and Astronomy

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title = "Bohr - Sommerfeld quantization rules in the semiclassical limit",

abstract = "We study one-dimensional quantum mechanical systems in the semiclassical limit. We construct a lowest order quasimode ψ(ℏ) for the Hamiltonian H(ℏ) when the energy E and Planck's constant ℏ satisfy the appropriate Bohr - Sommerfeld conditions. This means that ψ(ℏ) is an approximate solution of the Schr{\"o}dinger equation in the sense that \\[H(ℏ) - E]ψ(ℏ)|| ≤ Cℏ3/2||ψ(ℏ)||. It follows that H(ℏ) has some spectrum within a distance Cℏ3/2 of E. Although the result has a long history, our time-dependent construction technique is novel and elementary.",

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T1 - Bohr - Sommerfeld quantization rules in the semiclassical limit

AU - Hagedorn, George A.

AU - Robinson, Sam L.

PY - 1998/12/18

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N2 - We study one-dimensional quantum mechanical systems in the semiclassical limit. We construct a lowest order quasimode ψ(ℏ) for the Hamiltonian H(ℏ) when the energy E and Planck's constant ℏ satisfy the appropriate Bohr - Sommerfeld conditions. This means that ψ(ℏ) is an approximate solution of the Schrödinger equation in the sense that \\[H(ℏ) - E]ψ(ℏ)|| ≤ Cℏ3/2||ψ(ℏ)||. It follows that H(ℏ) has some spectrum within a distance Cℏ3/2 of E. Although the result has a long history, our time-dependent construction technique is novel and elementary.

AB - We study one-dimensional quantum mechanical systems in the semiclassical limit. We construct a lowest order quasimode ψ(ℏ) for the Hamiltonian H(ℏ) when the energy E and Planck's constant ℏ satisfy the appropriate Bohr - Sommerfeld conditions. This means that ψ(ℏ) is an approximate solution of the Schrödinger equation in the sense that \\[H(ℏ) - E]ψ(ℏ)|| ≤ Cℏ3/2||ψ(ℏ)||. It follows that H(ℏ) has some spectrum within a distance Cℏ3/2 of E. Although the result has a long history, our time-dependent construction technique is novel and elementary.

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JO - Journal of Physics A: Mathematical and General

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Bohr - Sommerfeld quantization rules in the semiclassical limit

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