Interaction-driven interband tunneling of bosons in the triple well

L. Cao; I. Brouzos; P. Schmelcher; Sascha Zöllner

doi:10.1088/1367-2630/13/3/033032

Interaction-driven interband tunneling of bosons in the triple well

L. Cao, I. Brouzos, P. Schmelcher, Sascha Zöllner

24 Citations (Scopus)

Abstract

We study the tunneling of a small ensemble of strongly repulsive bosons in a one-dimensional (1D) triple-well potential. The usual treatment within the single-band approximation suggests a suppression of tunneling in the strong-interaction regime. However, we show that several windows of enhanced tunneling are opened in this regime. This enhanced tunneling results from higher band contributions, and has the character of interband tunneling. It can give rise to various tunneling processes, such as single-boson tunneling and two-boson correlated tunneling of the ensemble of bosons, and is robust against deformations of the triple-well potential. We introduce a basis of generalized number states, including all contributing bands, to explain the interband tunneling, and demonstrate various processes of interband tunneling and its robustness by numerically exact calculation.

Original language	English
Journal	New Journal of Physics
Volume	13
Pages (from-to)	033032
ISSN	1367-2630
DOIs	https://doi.org/10.1088/1367-2630/13/3/033032
Publication status	Published - 21 Mar 2011

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title = "Interaction-driven interband tunneling of bosons in the triple well",

abstract = "We study the tunneling of a small ensemble of strongly repulsive bosons in a one-dimensional (1D) triple-well potential. The usual treatment within the single-band approximation suggests a suppression of tunneling in the strong-interaction regime. However, we show that several windows of enhanced tunneling are opened in this regime. This enhanced tunneling results from higher band contributions, and has the character of interband tunneling. It can give rise to various tunneling processes, such as single-boson tunneling and two-boson correlated tunneling of the ensemble of bosons, and is robust against deformations of the triple-well potential. We introduce a basis of generalized number states, including all contributing bands, to explain the interband tunneling, and demonstrate various processes of interband tunneling and its robustness by numerically exact calculation.",

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T1 - Interaction-driven interband tunneling of bosons in the triple well

AU - Cao, L.

AU - Brouzos, I.

AU - Schmelcher, P.

AU - Zöllner, Sascha

PY - 2011/3/21

Y1 - 2011/3/21

N2 - We study the tunneling of a small ensemble of strongly repulsive bosons in a one-dimensional (1D) triple-well potential. The usual treatment within the single-band approximation suggests a suppression of tunneling in the strong-interaction regime. However, we show that several windows of enhanced tunneling are opened in this regime. This enhanced tunneling results from higher band contributions, and has the character of interband tunneling. It can give rise to various tunneling processes, such as single-boson tunneling and two-boson correlated tunneling of the ensemble of bosons, and is robust against deformations of the triple-well potential. We introduce a basis of generalized number states, including all contributing bands, to explain the interband tunneling, and demonstrate various processes of interband tunneling and its robustness by numerically exact calculation.

AB - We study the tunneling of a small ensemble of strongly repulsive bosons in a one-dimensional (1D) triple-well potential. The usual treatment within the single-band approximation suggests a suppression of tunneling in the strong-interaction regime. However, we show that several windows of enhanced tunneling are opened in this regime. This enhanced tunneling results from higher band contributions, and has the character of interband tunneling. It can give rise to various tunneling processes, such as single-boson tunneling and two-boson correlated tunneling of the ensemble of bosons, and is robust against deformations of the triple-well potential. We introduce a basis of generalized number states, including all contributing bands, to explain the interband tunneling, and demonstrate various processes of interband tunneling and its robustness by numerically exact calculation.

U2 - 10.1088/1367-2630/13/3/033032

DO - 10.1088/1367-2630/13/3/033032

M3 - Journal article

SN - 1367-2630

VL - 13

SP - 033032

JO - New Journal of Physics

JF - New Journal of Physics

ER -

Interaction-driven interband tunneling of bosons in the triple well

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