1997
DOI: 10.1103/physreve.55.65
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Boundary integral method for quantum billiards in a constant magnetic field

Abstract: We derive a boundary integral equation to compute the eigenvalues of two-dimensional billiards subjected to a magnetic field. The integral requires the Green's function of the boundary-free problem with the magnetic field pointing in the opposite direction. This Green's function is computed for the case of a constant magnetic field perpendicular to the billiard and some applications are discussed. The elliptical billiard is then studied numerically as an example of a nontrivial application. ͓S1063-651X͑96͒0561… Show more

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Cited by 8 publications
(18 citation statements)
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“…This is a spectral equation which was derived by Tiago et al [33] (except for a misprint in their paper).…”
Section: A2 the Null Field Methodsmentioning
confidence: 96%
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“…This is a spectral equation which was derived by Tiago et al [33] (except for a misprint in their paper).…”
Section: A2 the Null Field Methodsmentioning
confidence: 96%
“…We proceed to extend these ideas to magnetic billiards. A step in this direction was taken by Tiago et al [33], who essentially propose a null-field method 8 [104] for (interior) magnetic billiards. It involves the irregular Green function (A.14) in angular momentum decomposition.…”
Section: Boundary Methodsmentioning
confidence: 99%
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“…An independent solution to (7) exists which grows exponentially beyond this classically allowed region. It may be called irregular free Green function and was used in the null-field method approach [17] for reasons to be explained below. In the following only the regular Green function will be used.…”
Section: Single and Double Layer Equationsmentioning
confidence: 99%
“…It seems natural to extend these ideas to the magnetic problem. A step in this direction was taken by Tiago et al [17] who essentially propose a null-field method [18] which involves the irregular Green function in the angular momentum decomposition. A drawback of their approach is that the latter function must be known for large angular momenta which is practically inaccessible numerically.…”
Section: Introductionmentioning
confidence: 99%