Exciton tunneling in (Zn, Cd)Se/ZnSe asymmetric double quantum wells

S. Ten; F. Henneberger; M. Rabe; N. Peyghambarian

Exciton tunneling in (Zn, Cd)Se/ZnSe asymmetric double quantum wells

S. Ten, F. Henneberger, M. Rabe, N. Peyghambarian

Research output: Contribution to conference › Paper › peer-review

Abstract

Presented is an investigation of exciton tunneling in a (Zn, Cd)Se/ZnSe asymmetric double quantum wells (ADQW) structure. The five period (Zn, Cd)Se/ZnSe ADQW sample was grown by molecular beam epitaxy on an undoped GaAs substrate. A single ADQW consists of a Zn_0.82Cd_0.18Se 13-angstrom narrow well (NW) and 25-angstrom wide well (WW) separated by a 42-angstrom ZnSe barrier. The time-resolved transmission setup utilized frequency doubled optical pulses generated by a self-modelocked femtosecond Ti:sapphire laser. Pump and probe were tuned to the NW heavy-hole exciton resonance and differential transmission was recorded.

Original language	English (US)
Pages	1
Number of pages	1
State	Published - 1996
Event	Proceedings of the 1996 6th Quantum Electronics and Laser Science Conference, QELS - Anaheim, CA, USA Duration: Jun 2 1996 → Jun 7 1996

Other

Other	Proceedings of the 1996 6th Quantum Electronics and Laser Science Conference, QELS
City	Anaheim, CA, USA
Period	6/2/96 → 6/7/96

ASJC Scopus subject areas

Physics and Astronomy(all)

Cite this

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title = "Exciton tunneling in (Zn, Cd)Se/ZnSe asymmetric double quantum wells",

abstract = "Presented is an investigation of exciton tunneling in a (Zn, Cd)Se/ZnSe asymmetric double quantum wells (ADQW) structure. The five period (Zn, Cd)Se/ZnSe ADQW sample was grown by molecular beam epitaxy on an undoped GaAs substrate. A single ADQW consists of a Zn0.82Cd0.18Se 13-angstrom narrow well (NW) and 25-angstrom wide well (WW) separated by a 42-angstrom ZnSe barrier. The time-resolved transmission setup utilized frequency doubled optical pulses generated by a self-modelocked femtosecond Ti:sapphire laser. Pump and probe were tuned to the NW heavy-hole exciton resonance and differential transmission was recorded.",

author = "S. Ten and F. Henneberger and M. Rabe and N. Peyghambarian",

year = "1996",

language = "English (US)",

pages = "1",

note = "Proceedings of the 1996 6th Quantum Electronics and Laser Science Conference, QELS ; Conference date: 02-06-1996 Through 07-06-1996",

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TY - CONF

T1 - Exciton tunneling in (Zn, Cd)Se/ZnSe asymmetric double quantum wells

AU - Ten, S.

AU - Henneberger, F.

AU - Rabe, M.

AU - Peyghambarian, N.

PY - 1996

Y1 - 1996

N2 - Presented is an investigation of exciton tunneling in a (Zn, Cd)Se/ZnSe asymmetric double quantum wells (ADQW) structure. The five period (Zn, Cd)Se/ZnSe ADQW sample was grown by molecular beam epitaxy on an undoped GaAs substrate. A single ADQW consists of a Zn0.82Cd0.18Se 13-angstrom narrow well (NW) and 25-angstrom wide well (WW) separated by a 42-angstrom ZnSe barrier. The time-resolved transmission setup utilized frequency doubled optical pulses generated by a self-modelocked femtosecond Ti:sapphire laser. Pump and probe were tuned to the NW heavy-hole exciton resonance and differential transmission was recorded.

AB - Presented is an investigation of exciton tunneling in a (Zn, Cd)Se/ZnSe asymmetric double quantum wells (ADQW) structure. The five period (Zn, Cd)Se/ZnSe ADQW sample was grown by molecular beam epitaxy on an undoped GaAs substrate. A single ADQW consists of a Zn0.82Cd0.18Se 13-angstrom narrow well (NW) and 25-angstrom wide well (WW) separated by a 42-angstrom ZnSe barrier. The time-resolved transmission setup utilized frequency doubled optical pulses generated by a self-modelocked femtosecond Ti:sapphire laser. Pump and probe were tuned to the NW heavy-hole exciton resonance and differential transmission was recorded.

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M3 - Paper

AN - SCOPUS:0029707858

SP - 1

T2 - Proceedings of the 1996 6th Quantum Electronics and Laser Science Conference, QELS

Y2 - 2 June 1996 through 7 June 1996

ER -

Exciton tunneling in (Zn, Cd)Se/ZnSe asymmetric double quantum wells

Abstract

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ASJC Scopus subject areas

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