LIGHT EMITTING DEVICE WITH DETEMINABLE SHAPE OF OUTPUT BEAM

A light emitting device has a first mirror; and one or more active regions with a first active region adjacent to the first mirror. Each of active region includes quantum wells and barriers, and is surrounded by one or more p-n junctions. The active regions have a selected shape structure each with...

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Hauptverfasser:	Huang, Michael Y, Hui, Kai, Cao, Chuanshun, Mateus, Carlos F. R, Chase, Christopher, Ford, Carl V, Worland, Philip, Bandyopadhyay, Neelanjan, Ellafi, Dalila
Format:	Patent
Sprache:	eng
Schlagworte:	BASIC ELECTRIC ELEMENTS DEVICES USING STIMULATED EMISSION ELECTRICITY
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creator	Huang, Michael Y Hui, Kai Cao, Chuanshun Mateus, Carlos F. R Chase, Christopher Ford, Carl V Worland, Philip Bandyopadhyay, Neelanjan Ellafi, Dalila
description	A light emitting device has a first mirror; and one or more active regions with a first active region adjacent to the first mirror. Each of active region includes quantum wells and barriers, and is surrounded by one or more p-n junctions. The active regions have a selected shape structure each with a tunnel junction (TJ). One or more apertures are provided with the selected shape structure; one or more buried tunnel junctions (BTJ), additional TJ's, planar structures and/or additional BTJ's, created during a regrowth process that is independent of a first growth process of the first mirror as well as the active region and the one or more TJs. One or more electrical confinement apertures are defined by the one or more BTJ's, additional TJ's, planar structures and/or additional BTJ's. A vertical resonator cavity is disposed over the electrical confinement aperture. A high contrast grating (HCG) operates as a second mirror positioned over the vertical resonator cavity. The HCG is configured to reflect a first portion of light back into the vertical resonator cavity, and a second portion of the light as an output beam from the VCSEL. The HCG structure is layered on the selected shape structure. A shape of the output beam of the light emitting device is determined by a geometric shape of the one or more BTJ apertures, apertures for additional TJ's, planar structures and/or additional BTJ's, with a transmission function of the HCG. The shape is designed according to the desired optical transmission function of the application.
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A vertical resonator cavity is disposed over the electrical confinement aperture. A high contrast grating (HCG) operates as a second mirror positioned over the vertical resonator cavity. The HCG is configured to reflect a first portion of light back into the vertical resonator cavity, and a second portion of the light as an output beam from the VCSEL. The HCG structure is layered on the selected shape structure. A shape of the output beam of the light emitting device is determined by a geometric shape of the one or more BTJ apertures, apertures for additional TJ's, planar structures and/or additional BTJ's, with a transmission function of the HCG. 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One or more apertures are provided with the selected shape structure; one or more buried tunnel junctions (BTJ), additional TJ's, planar structures and/or additional BTJ's, created during a regrowth process that is independent of a first growth process of the first mirror as well as the active region and the one or more TJs. One or more electrical confinement apertures are defined by the one or more BTJ's, additional TJ's, planar structures and/or additional BTJ's. A vertical resonator cavity is disposed over the electrical confinement aperture. A high contrast grating (HCG) operates as a second mirror positioned over the vertical resonator cavity. The HCG is configured to reflect a first portion of light back into the vertical resonator cavity, and a second portion of the light as an output beam from the VCSEL. The HCG structure is layered on the selected shape structure. A shape of the output beam of the light emitting device is determined by a geometric shape of the one or more BTJ apertures, apertures for additional TJ's, planar structures and/or additional BTJ's, with a transmission function of the HCG. The shape is designed according to the desired optical transmission function of the application.</description><subject>BASIC ELECTRIC ELEMENTS</subject><subject>DEVICES USING STIMULATED EMISSION</subject><subject>ELECTRICITY</subject><fulltext>true</fulltext><rsrctype>patent</rsrctype><creationdate>2024</creationdate><recordtype>patent</recordtype><sourceid>EVB</sourceid><recordid>eNrjZLD28XT3CFFw9fUMCfH0c1dwcQ3zdHZVCPcM8QCyQ4Difo5OPq4KwR6OAa4K_m4K_qEhAaEhCk6ujr48DKxpiTnFqbxQmptB2c01xNlDN7UgPz61uCAxOTUvtSQ-NNjIwMjEwNzI1NDC0dCYOFUAaa8p_w</recordid><startdate>20240229</startdate><enddate>20240229</enddate><creator>Huang, Michael Y</creator><creator>Hui, Kai</creator><creator>Cao, Chuanshun</creator><creator>Mateus, Carlos F. 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R</creatorcontrib><creatorcontrib>Chase, Christopher</creatorcontrib><creatorcontrib>Ford, Carl V</creatorcontrib><creatorcontrib>Worland, Philip</creatorcontrib><creatorcontrib>Bandyopadhyay, Neelanjan</creatorcontrib><creatorcontrib>Ellafi, Dalila</creatorcontrib><collection>esp@cenet</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Huang, Michael Y</au><au>Hui, Kai</au><au>Cao, Chuanshun</au><au>Mateus, Carlos F. R</au><au>Chase, Christopher</au><au>Ford, Carl V</au><au>Worland, Philip</au><au>Bandyopadhyay, Neelanjan</au><au>Ellafi, Dalila</au><format>patent</format><genre>patent</genre><ristype>GEN</ristype><title>LIGHT EMITTING DEVICE WITH DETEMINABLE SHAPE OF OUTPUT BEAM</title><date>2024-02-29</date><risdate>2024</risdate><abstract>A light emitting device has a first mirror; and one or more active regions with a first active region adjacent to the first mirror. Each of active region includes quantum wells and barriers, and is surrounded by one or more p-n junctions. The active regions have a selected shape structure each with a tunnel junction (TJ). One or more apertures are provided with the selected shape structure; one or more buried tunnel junctions (BTJ), additional TJ's, planar structures and/or additional BTJ's, created during a regrowth process that is independent of a first growth process of the first mirror as well as the active region and the one or more TJs. One or more electrical confinement apertures are defined by the one or more BTJ's, additional TJ's, planar structures and/or additional BTJ's. A vertical resonator cavity is disposed over the electrical confinement aperture. A high contrast grating (HCG) operates as a second mirror positioned over the vertical resonator cavity. The HCG is configured to reflect a first portion of light back into the vertical resonator cavity, and a second portion of the light as an output beam from the VCSEL. The HCG structure is layered on the selected shape structure. A shape of the output beam of the light emitting device is determined by a geometric shape of the one or more BTJ apertures, apertures for additional TJ's, planar structures and/or additional BTJ's, with a transmission function of the HCG. The shape is designed according to the desired optical transmission function of the application.</abstract><oa>free_for_read</oa></addata></record>
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subjects	BASIC ELECTRIC ELEMENTS DEVICES USING STIMULATED EMISSION ELECTRICITY
title	LIGHT EMITTING DEVICE WITH DETEMINABLE SHAPE OF OUTPUT BEAM
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