Continuous alloy-composition spatial grading and superbroad wavelength-tunable nanowire lasers on a single chip

Anlian Pan; Weichang Zhou; Eunice S P Leong; Ruibin Liu; Alan H. Chin; Bingsuo Zou; Cun-Zheng Ning

doi:10.1021/n1803456k

Continuous alloy-composition spatial grading and superbroad wavelength-tunable nanowire lasers on a single chip

Anlian Pan, Weichang Zhou, Eunice S P Leong, Ruibin Liu, Alan H. Chin, Bingsuo Zou, Cun-Zheng Ning

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

196 Scopus citations

Abstract

By controlling local substrate temperature in a chemical vapor deposition system, we have successfully achieved spatial composition grading covering the complete composition range of ternary alloy CdSSe nanowires on a single substrate of 1.2 cm in length. Spatial photoluminescence scan along the substrate length shows peak wavelength changes continuously from ∼500 to ∼700 nm. Furthermore, we show that under strong optical pumping, every spot along the substrate length displays lasing behavior. Thus our nanowire chip provides a spatially continuously tunable laser with a superbroad wavelength tuning range, unmatched by any other available semiconductor-based technology.

Original language	English (US)
Pages (from-to)	784-788
Number of pages	5
Journal	Nano Letters
Volume	9
Issue number	2
DOIs	https://doi.org/10.1021/n1803456k
State	Published - Feb 11 2009

ASJC Scopus subject areas

Bioengineering
Chemistry(all)
Materials Science(all)
Condensed Matter Physics
Mechanical Engineering

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title = "Continuous alloy-composition spatial grading and superbroad wavelength-tunable nanowire lasers on a single chip",

abstract = "By controlling local substrate temperature in a chemical vapor deposition system, we have successfully achieved spatial composition grading covering the complete composition range of ternary alloy CdSSe nanowires on a single substrate of 1.2 cm in length. Spatial photoluminescence scan along the substrate length shows peak wavelength changes continuously from ∼500 to ∼700 nm. Furthermore, we show that under strong optical pumping, every spot along the substrate length displays lasing behavior. Thus our nanowire chip provides a spatially continuously tunable laser with a superbroad wavelength tuning range, unmatched by any other available semiconductor-based technology.",

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AU - Pan, Anlian

AU - Zhou, Weichang

AU - Leong, Eunice S P

AU - Liu, Ruibin

AU - Chin, Alan H.

AU - Zou, Bingsuo

AU - Ning, Cun-Zheng

PY - 2009/2/11

Y1 - 2009/2/11

N2 - By controlling local substrate temperature in a chemical vapor deposition system, we have successfully achieved spatial composition grading covering the complete composition range of ternary alloy CdSSe nanowires on a single substrate of 1.2 cm in length. Spatial photoluminescence scan along the substrate length shows peak wavelength changes continuously from ∼500 to ∼700 nm. Furthermore, we show that under strong optical pumping, every spot along the substrate length displays lasing behavior. Thus our nanowire chip provides a spatially continuously tunable laser with a superbroad wavelength tuning range, unmatched by any other available semiconductor-based technology.

AB - By controlling local substrate temperature in a chemical vapor deposition system, we have successfully achieved spatial composition grading covering the complete composition range of ternary alloy CdSSe nanowires on a single substrate of 1.2 cm in length. Spatial photoluminescence scan along the substrate length shows peak wavelength changes continuously from ∼500 to ∼700 nm. Furthermore, we show that under strong optical pumping, every spot along the substrate length displays lasing behavior. Thus our nanowire chip provides a spatially continuously tunable laser with a superbroad wavelength tuning range, unmatched by any other available semiconductor-based technology.

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Continuous alloy-composition spatial grading and superbroad wavelength-tunable nanowire lasers on a single chip

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