Stochastic formulation of energy-level statistics

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Original languageEnglish
Pages (from-to)395-399
Number of pages5
JournalPhysical Review A
Volume38
Issue number1
Publication statusPublished - 1 Jan 1988

Abstract

It is shown that the joint distribution of energy eigenvalues for systems with a varying degree of nonintegrability which has been obtained dynamically by T. Yukawa [Phys. Rev. Lett. 54, 1883 (1985)] can also be deduced by putting his equations of motion in the form of stochastic differential equations. We obtain an interpolation formula for the nearest-neighbor-spacing distribution as a smooth one-parameter family of density functions P(S), 0<. This distribution retains a nonanalytic nature near 0; when =0 it agrees with the Poissonian distribution but whenever 0 it is proportional to S for small S, as predicted by M. Robnik [J. Phys. A 20, L495 (1987)]. A considerable improvement on the agreement between the energy-level histogram in a real system (hydrogen in a magnetic field) and theoretical formulas which have been studied by Wintgen and Friedrich [Phys. Rev. A 35, 1464 (1987)] is demonstrated.

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Stochastic formulation of energy-level statistics. / Hasegawa, H.; Mikeska, H. J.; Frahm, H.
In: Physical Review A, Vol. 38, No. 1, 01.01.1988, p. 395-399.

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Hasegawa H, Mikeska HJ, Frahm H. Stochastic formulation of energy-level statistics. Physical Review A. 1988 Jan 1;38(1):395-399. doi: 10.1103/PhysRevA.38.395, https://doi.org/10.15488/5096
Hasegawa, H. ; Mikeska, H. J. ; Frahm, H. / Stochastic formulation of energy-level statistics. In: Physical Review A. 1988 ; Vol. 38, No. 1. pp. 395-399.
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title = "Stochastic formulation of energy-level statistics",
abstract = "It is shown that the joint distribution of energy eigenvalues for systems with a varying degree of nonintegrability which has been obtained dynamically by T. Yukawa [Phys. Rev. Lett. 54, 1883 (1985)] can also be deduced by putting his equations of motion in the form of stochastic differential equations. We obtain an interpolation formula for the nearest-neighbor-spacing distribution as a smooth one-parameter family of density functions P(S), 0<. This distribution retains a nonanalytic nature near 0; when =0 it agrees with the Poissonian distribution but whenever 0 it is proportional to S for small S, as predicted by M. Robnik [J. Phys. A 20, L495 (1987)]. A considerable improvement on the agreement between the energy-level histogram in a real system (hydrogen in a magnetic field) and theoretical formulas which have been studied by Wintgen and Friedrich [Phys. Rev. A 35, 1464 (1987)] is demonstrated.",
author = "H. Hasegawa and Mikeska, {H. J.} and H. Frahm",
note = "Funding information: This work was supported by National Institutes of Health Grants P01HL129941 (toK. E. B.),R01AI143599(toK. E. B.),R21AI114965(toK. E. B.),R01HL142672(to J. F. G.), R00HL128787 (to S. J. P.), K99HL141638 (to D. O. D.), T32DK007770 (to L. C. V.), T32CA009056 (to A. E. J.), P30DK063491 (to J. F. G.), R01HL111362 (to J. E. V. E.), and R01HL132075 (to J. E. V. E.) and American Heart Association (AHA) Grants 17GRNT33661206 (to K. E. B.), 16SDG30130015 (to J. F. G.), and 19CDA34760010 (to Z. K.). The authors declare that they have no conflicts of interest with the contents of this article. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.",
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AU - Mikeska, H. J.

AU - Frahm, H.

N1 - Funding information: This work was supported by National Institutes of Health Grants P01HL129941 (toK. E. B.),R01AI143599(toK. E. B.),R21AI114965(toK. E. B.),R01HL142672(to J. F. G.), R00HL128787 (to S. J. P.), K99HL141638 (to D. O. D.), T32DK007770 (to L. C. V.), T32CA009056 (to A. E. J.), P30DK063491 (to J. F. G.), R01HL111362 (to J. E. V. E.), and R01HL132075 (to J. E. V. E.) and American Heart Association (AHA) Grants 17GRNT33661206 (to K. E. B.), 16SDG30130015 (to J. F. G.), and 19CDA34760010 (to Z. K.). The authors declare that they have no conflicts of interest with the contents of this article. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.

PY - 1988/1/1

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N2 - It is shown that the joint distribution of energy eigenvalues for systems with a varying degree of nonintegrability which has been obtained dynamically by T. Yukawa [Phys. Rev. Lett. 54, 1883 (1985)] can also be deduced by putting his equations of motion in the form of stochastic differential equations. We obtain an interpolation formula for the nearest-neighbor-spacing distribution as a smooth one-parameter family of density functions P(S), 0<. This distribution retains a nonanalytic nature near 0; when =0 it agrees with the Poissonian distribution but whenever 0 it is proportional to S for small S, as predicted by M. Robnik [J. Phys. A 20, L495 (1987)]. A considerable improvement on the agreement between the energy-level histogram in a real system (hydrogen in a magnetic field) and theoretical formulas which have been studied by Wintgen and Friedrich [Phys. Rev. A 35, 1464 (1987)] is demonstrated.

AB - It is shown that the joint distribution of energy eigenvalues for systems with a varying degree of nonintegrability which has been obtained dynamically by T. Yukawa [Phys. Rev. Lett. 54, 1883 (1985)] can also be deduced by putting his equations of motion in the form of stochastic differential equations. We obtain an interpolation formula for the nearest-neighbor-spacing distribution as a smooth one-parameter family of density functions P(S), 0<. This distribution retains a nonanalytic nature near 0; when =0 it agrees with the Poissonian distribution but whenever 0 it is proportional to S for small S, as predicted by M. Robnik [J. Phys. A 20, L495 (1987)]. A considerable improvement on the agreement between the energy-level histogram in a real system (hydrogen in a magnetic field) and theoretical formulas which have been studied by Wintgen and Friedrich [Phys. Rev. A 35, 1464 (1987)] is demonstrated.

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