Excitonic properties of ZnS quantum wells

B. Urbaszek; C. M. Townsley; X. Tang; C. Morhain; A. Balocchi; K. A. Prior; R. J. Nicholas; B. C. Cavenett

Excitonic properties of ZnS quantum wells

B. Urbaszek
, C. M. Townsley
, X. Tang
, C. Morhain
, A. Balocchi
, K. A. Prior
, R. J. Nicholas
, B. C. Cavenett

Research output: Contribution to journal › Article › peer-review

Abstract

The excitonic properties of cubic ZnS quantum wells in ZnMgS are studied by reflectivity and magnetooptics. A remarkable improvement in the quality of the samples grown by molecular-beam epitaxy on GaP substrates has allowed the observation of heavy- and light-hole exciton transitions with values for the full width at half maximum as narrow as 5 meV. The 2s state of the heavy-hole exciton is identified and exciton binding energies of as high as 55 meV are deduced, indicating that for quantum wells narrower than 3.5 nm the exciton-LO phonon scattering can be suppressed. Zeeman splittings of the order of 10 meV for both the light and heavy-hole exciton transitions appear in magnetoreflectivity spectra in magnetic fields up to 54 T. Large light-hole exciton g values of the order of 4 for all quantum wells are obtained due to the light hole being the uppermost valence band in these tensile-strained quantum wells. A strong reduction in the diamagnetic shifts for narrow wells is observed due to increasing quantum confinement.

Original language	English
Article number	155321
Pages (from-to)	1553211-1553216
Number of pages	6
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	64
Issue number	15
State	Published - 15 Oct 2001
Externally published	Yes

Cite this

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title = "Excitonic properties of ZnS quantum wells",

abstract = "The excitonic properties of cubic ZnS quantum wells in ZnMgS are studied by reflectivity and magnetooptics. A remarkable improvement in the quality of the samples grown by molecular-beam epitaxy on GaP substrates has allowed the observation of heavy- and light-hole exciton transitions with values for the full width at half maximum as narrow as 5 meV. The 2s state of the heavy-hole exciton is identified and exciton binding energies of as high as 55 meV are deduced, indicating that for quantum wells narrower than 3.5 nm the exciton-LO phonon scattering can be suppressed. Zeeman splittings of the order of 10 meV for both the light and heavy-hole exciton transitions appear in magnetoreflectivity spectra in magnetic fields up to 54 T. Large light-hole exciton g values of the order of 4 for all quantum wells are obtained due to the light hole being the uppermost valence band in these tensile-strained quantum wells. A strong reduction in the diamagnetic shifts for narrow wells is observed due to increasing quantum confinement.",

author = "B. Urbaszek and Townsley, \{C. M.\} and X. Tang and C. Morhain and A. Balocchi and Prior, \{K. A.\} and Nicholas, \{R. J.\} and Cavenett, \{B. C.\}",

year = "2001",

month = oct,

day = "15",

language = "英语",

volume = "64",

pages = "1553211--1553216",

journal = "Physical Review B - Condensed Matter and Materials Physics",

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TY - JOUR

T1 - Excitonic properties of ZnS quantum wells

AU - Urbaszek, B.

AU - Townsley, C. M.

AU - Tang, X.

AU - Morhain, C.

AU - Balocchi, A.

AU - Prior, K. A.

AU - Nicholas, R. J.

AU - Cavenett, B. C.

PY - 2001/10/15

Y1 - 2001/10/15

N2 - The excitonic properties of cubic ZnS quantum wells in ZnMgS are studied by reflectivity and magnetooptics. A remarkable improvement in the quality of the samples grown by molecular-beam epitaxy on GaP substrates has allowed the observation of heavy- and light-hole exciton transitions with values for the full width at half maximum as narrow as 5 meV. The 2s state of the heavy-hole exciton is identified and exciton binding energies of as high as 55 meV are deduced, indicating that for quantum wells narrower than 3.5 nm the exciton-LO phonon scattering can be suppressed. Zeeman splittings of the order of 10 meV for both the light and heavy-hole exciton transitions appear in magnetoreflectivity spectra in magnetic fields up to 54 T. Large light-hole exciton g values of the order of 4 for all quantum wells are obtained due to the light hole being the uppermost valence band in these tensile-strained quantum wells. A strong reduction in the diamagnetic shifts for narrow wells is observed due to increasing quantum confinement.

AB - The excitonic properties of cubic ZnS quantum wells in ZnMgS are studied by reflectivity and magnetooptics. A remarkable improvement in the quality of the samples grown by molecular-beam epitaxy on GaP substrates has allowed the observation of heavy- and light-hole exciton transitions with values for the full width at half maximum as narrow as 5 meV. The 2s state of the heavy-hole exciton is identified and exciton binding energies of as high as 55 meV are deduced, indicating that for quantum wells narrower than 3.5 nm the exciton-LO phonon scattering can be suppressed. Zeeman splittings of the order of 10 meV for both the light and heavy-hole exciton transitions appear in magnetoreflectivity spectra in magnetic fields up to 54 T. Large light-hole exciton g values of the order of 4 for all quantum wells are obtained due to the light hole being the uppermost valence band in these tensile-strained quantum wells. A strong reduction in the diamagnetic shifts for narrow wells is observed due to increasing quantum confinement.

UR - https://www.scopus.com/pages/publications/0005521374

M3 - 文章

AN - SCOPUS:0005521374

SN - 0163-1829

VL - 64

SP - 1553211

EP - 1553216

JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

IS - 15

M1 - 155321

ER -

Excitonic properties of ZnS quantum wells

Abstract

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