Exciton spin relaxation dynamics in CdTe quantum dots at room temperature

Meng Long Zhu; Yu Lan Dong; Hai Zheng Zhong; Jun He

doi:10.7498/aps.63.127202

Exciton spin relaxation dynamics in CdTe quantum dots at room temperature

Meng Long Zhu, Yu Lan Dong, Hai Zheng Zhong, Jun He^*

^*Corresponding author for this work

School of Material Science and Engineering

Central South University

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

Abstract

Size-dependent exciton spin relaxation dynamics in CdTe colloidal quantum dots is studied at room temperature with the cross-polarized heterodyne third-order nonlinear transient grating technique The CdTe exciton spin relaxation reveals a mono-exponential decay behavior with a time constant of 0.1-0.5 ps when the pump-probe photon energy is tuned to be in resonance with the lowest exciton absorption transition (1S_e-1S_h). The exciton spin relaxation in quantum dot is mainly governed by the hole spin flip process and ascribed to the transitions between bright-dark exciton fine structure states, i.e. J = ±1↔∓2. This finding suggests that the exciton spin relaxation rate in CdTe quantum dot is inversely proportional to the fourth power of quantum dot size.

Original language	English
Article number	127202
Journal	Wuli Xuebao/Acta Physica Sinica
Volume	63
Issue number	12
DOIs	https://doi.org/10.7498/aps.63.127202
Publication status	Published - 20 Jun 2014

Keywords

CdTe quantum dots
Exciton spin relaxation
Transient grating technique

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10.7498/aps.63.127202

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title = "Exciton spin relaxation dynamics in CdTe quantum dots at room temperature",

abstract = "Size-dependent exciton spin relaxation dynamics in CdTe colloidal quantum dots is studied at room temperature with the cross-polarized heterodyne third-order nonlinear transient grating technique The CdTe exciton spin relaxation reveals a mono-exponential decay behavior with a time constant of 0.1-0.5 ps when the pump-probe photon energy is tuned to be in resonance with the lowest exciton absorption transition (1Se-1Sh). The exciton spin relaxation in quantum dot is mainly governed by the hole spin flip process and ascribed to the transitions between bright-dark exciton fine structure states, i.e. J = ±1↔∓2. This finding suggests that the exciton spin relaxation rate in CdTe quantum dot is inversely proportional to the fourth power of quantum dot size.",

keywords = "CdTe quantum dots, Exciton spin relaxation, Transient grating technique",

author = "Zhu, {Meng Long} and Dong, {Yu Lan} and Zhong, {Hai Zheng} and Jun He",

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doi = "10.7498/aps.63.127202",

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T1 - Exciton spin relaxation dynamics in CdTe quantum dots at room temperature

AU - Zhu, Meng Long

AU - Dong, Yu Lan

AU - Zhong, Hai Zheng

AU - He, Jun

PY - 2014/6/20

Y1 - 2014/6/20

N2 - Size-dependent exciton spin relaxation dynamics in CdTe colloidal quantum dots is studied at room temperature with the cross-polarized heterodyne third-order nonlinear transient grating technique The CdTe exciton spin relaxation reveals a mono-exponential decay behavior with a time constant of 0.1-0.5 ps when the pump-probe photon energy is tuned to be in resonance with the lowest exciton absorption transition (1Se-1Sh). The exciton spin relaxation in quantum dot is mainly governed by the hole spin flip process and ascribed to the transitions between bright-dark exciton fine structure states, i.e. J = ±1↔∓2. This finding suggests that the exciton spin relaxation rate in CdTe quantum dot is inversely proportional to the fourth power of quantum dot size.

AB - Size-dependent exciton spin relaxation dynamics in CdTe colloidal quantum dots is studied at room temperature with the cross-polarized heterodyne third-order nonlinear transient grating technique The CdTe exciton spin relaxation reveals a mono-exponential decay behavior with a time constant of 0.1-0.5 ps when the pump-probe photon energy is tuned to be in resonance with the lowest exciton absorption transition (1Se-1Sh). The exciton spin relaxation in quantum dot is mainly governed by the hole spin flip process and ascribed to the transitions between bright-dark exciton fine structure states, i.e. J = ±1↔∓2. This finding suggests that the exciton spin relaxation rate in CdTe quantum dot is inversely proportional to the fourth power of quantum dot size.

KW - CdTe quantum dots

KW - Exciton spin relaxation

KW - Transient grating technique

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Exciton spin relaxation dynamics in CdTe quantum dots at room temperature

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