Transient dual-energy lasing in a semiconductor microcavity

Feng Kuo Hsu; Wei Xie; Yi Shan Lee; Sheng Di Lin; Chih Wei Lai

doi:10.1038/srep15347

Transient dual-energy lasing in a semiconductor microcavity

Feng Kuo Hsu
, Wei Xie
, Yi Shan Lee
, Sheng Di Lin
, Chih Wei Lai^*

^*Corresponding author for this work

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

1 Scopus citations

Abstract

We demonstrate sequential lasing at two well-separated energies in a highly photoexcited planar microcavity at room temperature. Two spatially overlapped lasing states with distinct polarization properties appear at energies more than 5 meV apart. Under a circularly polarized nonresonant 2 ps pulse excitation, a sub-10-ps transient circularly polarized high-energy (HE) state emerges within 10 ps after the pulse excitation. This HE state is followed by a pulsed state that lasts for 20-50 ps at a low energy (LE) state. The HE state is highly circularly polarized as a result of a spin-preserving stimulated process, while the LE state shows a significantly reduced circular polarization because of a diminishing spin imbalance.

Original language	English
Article number	15347
Journal	Scientific Reports
Volume	5
DOIs	https://doi.org/10.1038/srep15347
State	Published - 19 Oct 2015
Externally published	Yes

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title = "Transient dual-energy lasing in a semiconductor microcavity",

abstract = "We demonstrate sequential lasing at two well-separated energies in a highly photoexcited planar microcavity at room temperature. Two spatially overlapped lasing states with distinct polarization properties appear at energies more than 5 meV apart. Under a circularly polarized nonresonant 2 ps pulse excitation, a sub-10-ps transient circularly polarized high-energy (HE) state emerges within 10 ps after the pulse excitation. This HE state is followed by a pulsed state that lasts for 20-50 ps at a low energy (LE) state. The HE state is highly circularly polarized as a result of a spin-preserving stimulated process, while the LE state shows a significantly reduced circular polarization because of a diminishing spin imbalance.",

author = "Hsu, \{Feng Kuo\} and Wei Xie and Lee, \{Yi Shan\} and Lin, \{Sheng Di\} and Lai, \{Chih Wei\}",

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doi = "10.1038/srep15347",

language = "英语",

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T1 - Transient dual-energy lasing in a semiconductor microcavity

AU - Hsu, Feng Kuo

AU - Xie, Wei

AU - Lee, Yi Shan

AU - Lin, Sheng Di

AU - Lai, Chih Wei

PY - 2015/10/19

Y1 - 2015/10/19

N2 - We demonstrate sequential lasing at two well-separated energies in a highly photoexcited planar microcavity at room temperature. Two spatially overlapped lasing states with distinct polarization properties appear at energies more than 5 meV apart. Under a circularly polarized nonresonant 2 ps pulse excitation, a sub-10-ps transient circularly polarized high-energy (HE) state emerges within 10 ps after the pulse excitation. This HE state is followed by a pulsed state that lasts for 20-50 ps at a low energy (LE) state. The HE state is highly circularly polarized as a result of a spin-preserving stimulated process, while the LE state shows a significantly reduced circular polarization because of a diminishing spin imbalance.

AB - We demonstrate sequential lasing at two well-separated energies in a highly photoexcited planar microcavity at room temperature. Two spatially overlapped lasing states with distinct polarization properties appear at energies more than 5 meV apart. Under a circularly polarized nonresonant 2 ps pulse excitation, a sub-10-ps transient circularly polarized high-energy (HE) state emerges within 10 ps after the pulse excitation. This HE state is followed by a pulsed state that lasts for 20-50 ps at a low energy (LE) state. The HE state is highly circularly polarized as a result of a spin-preserving stimulated process, while the LE state shows a significantly reduced circular polarization because of a diminishing spin imbalance.

UR - https://www.scopus.com/pages/publications/84945217559

U2 - 10.1038/srep15347

DO - 10.1038/srep15347

M3 - 文章

AN - SCOPUS:84945217559

SN - 2045-2322

VL - 5

JO - Scientific Reports

JF - Scientific Reports

M1 - 15347

ER -

Transient dual-energy lasing in a semiconductor microcavity

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