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Bound states for square well potentials extending to infinity in D {>=} 2

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Abstract

It is well known that quantum mechanics allows the penetration into classically forbidden regions (tunneling). Less well known seems to be the fact that in some sense the converse is true also. Potentials with classically allowed regions where a particle can move freely to infinity can nevertheless lead to bound states in quantum mechanics due to the stringent requirements of the boundary conditions, thus forbidding an escape to infinity. This effect is demonstrated by using an obvious generalization of the well known one-dimensional (D = 1) square well potential to arbitray space dimensions. (author).
Authors:
Publication Date:
Apr 08, 1992
Product Type:
Technical Report
Report Number:
UWThPh-1992-20
Reference Number:
SCA: 661100; PA: AIX-24:016829; SN: 93000944302
Resource Relation:
Other Information: PBD: 8 Apr 1992
Subject:
71 CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS; QUANTUM MECHANICS; BOUND STATE; SQUARE-WELL POTENTIAL; 661100; CLASSICAL AND QUANTUM MECHANICS
OSTI ID:
10125465
Research Organizations:
Vienna Univ. (Austria). Inst. fuer Theoretische Physik
Country of Origin:
Austria
Language:
English
Other Identifying Numbers:
Other: ON: DE93615557; TRN: AT9200610016829
Availability:
OSTI; NTIS (US Sales Only); INIS
Submitting Site:
INIS
Size:
[5] p.
Announcement Date:
Jul 04, 2005

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Citation Formats

Rupertsberger, H. Bound states for square well potentials extending to infinity in D {>=} 2. Austria: N. p., 1992. Web.
Rupertsberger, H. Bound states for square well potentials extending to infinity in D {>=} 2. Austria.
Rupertsberger, H. 1992. "Bound states for square well potentials extending to infinity in D {>=} 2." Austria.
@misc{etde_10125465,
title = {Bound states for square well potentials extending to infinity in D {>=} 2}
 author = {Rupertsberger, H}
 abstractNote = {It is well known that quantum mechanics allows the penetration into classically forbidden regions (tunneling). Less well known seems to be the fact that in some sense the converse is true also. Potentials with classically allowed regions where a particle can move freely to infinity can nevertheless lead to bound states in quantum mechanics due to the stringent requirements of the boundary conditions, thus forbidding an escape to infinity. This effect is demonstrated by using an obvious generalization of the well known one-dimensional (D = 1) square well potential to arbitray space dimensions. (author).}
 place = {Austria}
 year = {1992}
 month = {Apr}
 }