Tensile-strained germanium microdisks with circular Bragg reflectors

M. El Kurdi; M. Prost; A. Ghrib; A. Elbaz; S. Sauvage; X. Checoury; G. Beaudoin; I. Sagnes; G. Picardi; R. Ossikovski; F. Boeuf; P. Boucaud

doi:10.1063/1.4942891

Tensile-strained germanium microdisks with circular Bragg reflectors

M. El Kurdi
, M. Prost
, A. Ghrib
, A. Elbaz
, S. Sauvage
, X. Checoury
, G. Beaudoin
, I. Sagnes
, G. Picardi
, R. Ossikovski
, F. Boeuf
, P. Boucaud

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

Abstract

We demonstrate the combination of germanium microdisks tensily strained by silicon nitride layers and circular Bragg reflectors. The microdisks with suspended lateral Bragg reflectors form a cavity with quality factors up to 2000 around 2 μm. This represents a key feature to achieve a microlaser with a quasi-direct band gap germanium under a 1.6% biaxial tensile strain. We show that lowering the temperature significantly improves the quality factor of the quasi-radial modes. Linewidth narrowing is observed in a range of weak continuous wave excitation powers. We finally discuss the requirements to achieve lasing with these kind of structures.

Original language	English
Journal	Applied Physics Letters
Volume	108
Issue number	9
DOIs	https://doi.org/10.1063/1.4942891
Publication status	Published - 29 Feb 2016
Externally published	Yes

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10.1063/1.4942891

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title = "Tensile-strained germanium microdisks with circular Bragg reflectors",

abstract = "We demonstrate the combination of germanium microdisks tensily strained by silicon nitride layers and circular Bragg reflectors. The microdisks with suspended lateral Bragg reflectors form a cavity with quality factors up to 2000 around 2 μm. This represents a key feature to achieve a microlaser with a quasi-direct band gap germanium under a 1.6\% biaxial tensile strain. We show that lowering the temperature significantly improves the quality factor of the quasi-radial modes. Linewidth narrowing is observed in a range of weak continuous wave excitation powers. We finally discuss the requirements to achieve lasing with these kind of structures.",

author = "\{El Kurdi\}, M. and M. Prost and A. Ghrib and A. Elbaz and S. Sauvage and X. Checoury and G. Beaudoin and I. Sagnes and G. Picardi and R. Ossikovski and F. Boeuf and P. Boucaud",

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T1 - Tensile-strained germanium microdisks with circular Bragg reflectors

AU - El Kurdi, M.

AU - Prost, M.

AU - Ghrib, A.

AU - Elbaz, A.

AU - Sauvage, S.

AU - Checoury, X.

AU - Beaudoin, G.

AU - Sagnes, I.

AU - Picardi, G.

AU - Ossikovski, R.

AU - Boeuf, F.

AU - Boucaud, P.

PY - 2016/2/29

Y1 - 2016/2/29

N2 - We demonstrate the combination of germanium microdisks tensily strained by silicon nitride layers and circular Bragg reflectors. The microdisks with suspended lateral Bragg reflectors form a cavity with quality factors up to 2000 around 2 μm. This represents a key feature to achieve a microlaser with a quasi-direct band gap germanium under a 1.6% biaxial tensile strain. We show that lowering the temperature significantly improves the quality factor of the quasi-radial modes. Linewidth narrowing is observed in a range of weak continuous wave excitation powers. We finally discuss the requirements to achieve lasing with these kind of structures.

AB - We demonstrate the combination of germanium microdisks tensily strained by silicon nitride layers and circular Bragg reflectors. The microdisks with suspended lateral Bragg reflectors form a cavity with quality factors up to 2000 around 2 μm. This represents a key feature to achieve a microlaser with a quasi-direct band gap germanium under a 1.6% biaxial tensile strain. We show that lowering the temperature significantly improves the quality factor of the quasi-radial modes. Linewidth narrowing is observed in a range of weak continuous wave excitation powers. We finally discuss the requirements to achieve lasing with these kind of structures.

UR - https://www.scopus.com/pages/publications/84959558114

U2 - 10.1063/1.4942891

DO - 10.1063/1.4942891

M3 - Article

AN - SCOPUS:84959558114

SN - 0003-6951

VL - 108

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 9

ER -

Tensile-strained germanium microdisks with circular Bragg reflectors

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