2004
DOI: 10.1063/1.1807970
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Vertically emitting annular Bragg lasers using polymer epitaxial transfer

Abstract: Fabrication of a planar semiconductor microcavity, composed of cylindrical Bragg reflectors surrounding a radial defect, is demonstrated. A versatile polymer bonding process is used to transfer active InGaAsP resonators to a low-index transfer substrate. Vertical emission of in-plane modes lasing at telecom wavelengths is observed under pulsed optical excitation with a submilliwatt threshold. Recently, a new ring cavity geometry, based on optimally designed cylindrical Bragg reflectors surrounding a radial def… Show more

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Cited by 29 publications
(16 citation statements)
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“…It is based on (linear) high-contrast second-order Bragg gratings recently introduced 4 for light extraction from planar waveguides. While similar circular geometries have been employed for enhanced light extraction from light emitting diodes, 5 and for demonstrating annular Bragg lasers, 6 here we show an application in QD single photon extraction.The design process consisted of a series of finite difference time domain simulations that maximized vertical light extraction near the expected QD s-shell emission (k QD % 940 nm), by varying K, t, and w. The structures were excited with a horizontally oriented electric dipole at the bullseye center (x ¼ 0, y ¼ 0), representing an optimally placed QD. Total radiated power, steady-state upwards emission, and electromagnetic Electronic mail: mdavanco@nist.gov.…”
mentioning
confidence: 99%
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“…It is based on (linear) high-contrast second-order Bragg gratings recently introduced 4 for light extraction from planar waveguides. While similar circular geometries have been employed for enhanced light extraction from light emitting diodes, 5 and for demonstrating annular Bragg lasers, 6 here we show an application in QD single photon extraction.The design process consisted of a series of finite difference time domain simulations that maximized vertical light extraction near the expected QD s-shell emission (k QD % 940 nm), by varying K, t, and w. The structures were excited with a horizontally oriented electric dipole at the bullseye center (x ¼ 0, y ¼ 0), representing an optimally placed QD. Total radiated power, steady-state upwards emission, and electromagnetic Electronic mail: mdavanco@nist.gov.…”
mentioning
confidence: 99%
“…It is based on (linear) high-contrast second-order Bragg gratings recently introduced 4 for light extraction from planar waveguides. While similar circular geometries have been employed for enhanced light extraction from light emitting diodes, 5 and for demonstrating annular Bragg lasers, 6 here we show an application in QD single photon extraction.…”
mentioning
confidence: 99%
“…After resist development, the PMMA patterns are transferred into the SiO 2 layer by reactive ion etching (RIE) using a CHF 3 plasma. The SiO 2 layer then serves as a hard mask to etch the semiconductor using an inductively coupled plasma RIE (ICP-RIE) with HI/Ar chemistry [17].…”
Section: Appendixmentioning
confidence: 99%
“…Among the various grating coupled schemes, circular grating lasers with large emission apertures possess the additional advantage of producing circularly-symmetric, narrow-divergence laser beams, making them convenient for coupling to fibers [7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22][23][24][25][26]. In such lasers, the grating serves two purposes: confining the in-plane fields to form a radial resonator and secondly acting as a broadside output coupler.…”
Section: Introductionmentioning
confidence: 99%