Conformal organohalide perovskites enable lasing on spherical resonators

Brandon R. Sutherland; Sjoerd Hoogland; Michael M. Adachi; Chris T.O. Wong; Edward H. Sargent

doi:10.1021/nn504856g

Conformal organohalide perovskites enable lasing on spherical resonators

Brandon R. Sutherland, Sjoerd Hoogland, Michael M. Adachi, Chris T.O. Wong, Edward H. Sargent^*

^*Corresponding author for this work

Chemistry

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

339 Scopus citations

Abstract

Conformal integration of semiconductor gain media is broadly important in on-chip optical communication technology. Here we deploy atomic layer deposition to create conformally deposited organohalide perovskites-an attractive semiconducting gain medium-with the goal of achieving coherent light emission on spherical optical cavities. We demonstrate the high quality of perovskite gain media fabricated with this method, achieving optical gain in the nanosecond pulse regime with a threshold for amplified spontaneous emission of 65 ± 8 μJ cm^-2. Through variable stripe length measurements, we report a net modal gain of 125 ± 22 cm^-1 and a gain bandwidth of 50 ± 14 meV. Leveraging the high quality of the gain medium, we conformally coat silica microspheres with perovskite to form whispering gallery mode optical cavities and achieve lasing.

Original language	English (US)
Pages (from-to)	10947-10952
Number of pages	6
Journal	ACS nano
Volume	8
Issue number	10
DOIs	https://doi.org/10.1021/nn504856g
State	Published - Oct 28 2014

Keywords

CHNHPbI
atomic layer deposition
perovskites
whispering gallery mode lasing

ASJC Scopus subject areas

General Materials Science
General Engineering
General Physics and Astronomy

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10.1021/nn504856g

Cite this

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title = "Conformal organohalide perovskites enable lasing on spherical resonators",

abstract = "Conformal integration of semiconductor gain media is broadly important in on-chip optical communication technology. Here we deploy atomic layer deposition to create conformally deposited organohalide perovskites-an attractive semiconducting gain medium-with the goal of achieving coherent light emission on spherical optical cavities. We demonstrate the high quality of perovskite gain media fabricated with this method, achieving optical gain in the nanosecond pulse regime with a threshold for amplified spontaneous emission of 65 ± 8 μJ cm-2. Through variable stripe length measurements, we report a net modal gain of 125 ± 22 cm-1 and a gain bandwidth of 50 ± 14 meV. Leveraging the high quality of the gain medium, we conformally coat silica microspheres with perovskite to form whispering gallery mode optical cavities and achieve lasing.",

keywords = "CHNHPbI, atomic layer deposition, perovskites, whispering gallery mode lasing",

author = "Sutherland, {Brandon R.} and Sjoerd Hoogland and Adachi, {Michael M.} and Wong, {Chris T.O.} and Sargent, {Edward H.}",

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AU - Sutherland, Brandon R.

AU - Hoogland, Sjoerd

AU - Adachi, Michael M.

AU - Wong, Chris T.O.

AU - Sargent, Edward H.

PY - 2014/10/28

Y1 - 2014/10/28

N2 - Conformal integration of semiconductor gain media is broadly important in on-chip optical communication technology. Here we deploy atomic layer deposition to create conformally deposited organohalide perovskites-an attractive semiconducting gain medium-with the goal of achieving coherent light emission on spherical optical cavities. We demonstrate the high quality of perovskite gain media fabricated with this method, achieving optical gain in the nanosecond pulse regime with a threshold for amplified spontaneous emission of 65 ± 8 μJ cm-2. Through variable stripe length measurements, we report a net modal gain of 125 ± 22 cm-1 and a gain bandwidth of 50 ± 14 meV. Leveraging the high quality of the gain medium, we conformally coat silica microspheres with perovskite to form whispering gallery mode optical cavities and achieve lasing.

AB - Conformal integration of semiconductor gain media is broadly important in on-chip optical communication technology. Here we deploy atomic layer deposition to create conformally deposited organohalide perovskites-an attractive semiconducting gain medium-with the goal of achieving coherent light emission on spherical optical cavities. We demonstrate the high quality of perovskite gain media fabricated with this method, achieving optical gain in the nanosecond pulse regime with a threshold for amplified spontaneous emission of 65 ± 8 μJ cm-2. Through variable stripe length measurements, we report a net modal gain of 125 ± 22 cm-1 and a gain bandwidth of 50 ± 14 meV. Leveraging the high quality of the gain medium, we conformally coat silica microspheres with perovskite to form whispering gallery mode optical cavities and achieve lasing.

KW - CHNHPbI

KW - atomic layer deposition

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KW - whispering gallery mode lasing

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Conformal organohalide perovskites enable lasing on spherical resonators

Abstract

Keywords

ASJC Scopus subject areas

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