Influence of point defects on InGaN quantum well decomposition in technology of blue/green laser diodes and LEDs (Q84238): Difference between revisions
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(Removed claim: financed by (P890): Directorate-General for Regional and Urban Policy (Q8361), Removing unnecessary financed by statement) |
(Changed label, description and/or aliases in fr: translated_label) |
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Influence des défauts de point sur la décomposition quantique InGaN dans la technologie des diodes laser bleues/vertes et des LED | |||
Revision as of 16:25, 30 November 2021
Project Q84238 in Poland
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Influence of point defects on InGaN quantum well decomposition in technology of blue/green laser diodes and LEDs |
Project Q84238 in Poland |
Statements
3,464,455.0 zloty
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3,464,455.0 zloty
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100.0 percent
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1 September 2017
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31 August 2020
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INSTYTUT WYSOKICH CIŚNIEŃ POLSKIEJ AKADEMII NAUK
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In the Project, we will explain the role of point defects (mainly Ga vacancies and hydrogen impurity) in decomposition of InGaN quantum wells. This decomposition occurs during growth of p-type GaN above these wells in LEDs and laser diodes (LDs) emitting in blue/green spectral range, and is one of the main reasons why the efficiencies of green emitters have low efficiencies ("green gap"). In our recent research, we got for the first time indications that the InGaN decomposition is caused by strain-driven diffusion of point defects. To understand this phenomenon, we are planning to do a number of experiments changing growth parameters (doping, flows of reactants, pressure, temperature, etc) in epitaxial growth, as well as to do theoretical modelling of point defect and indium diffusion. The samples will be examined using a number of techniques in collaboration with other labs. As a result, we should find the way of avoiding the InGaN decomposition in LEDs and LDs. (Polish)
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In the Project, we will explain the role of point defects (mainly Ga vacancies and hydrogen Impurity) in decomposition of InGaN quantum wells. This decomposition occurs during growth of p-type GaN above these wells in LEDs and laser diodes (LDs) emitting in blue/green spectral range, and is one of the main reasons why the efficiencies of green emitters have low efficiencies (“green gap”). In our recent research, we got for the first time indications that the InGaN decomposition is caused by strain-driven diffusion of point defects. To understand this phenomenon, we are planning to do a number of experiments changing growth parameters (doping, flows of reactants, pressure, temperature, etc) in epitaxial growth, as well as to do theoretical modelling of point defect and indium diffusion. The samples will be examined using a number of techniques in collaboration with other labs. As a result, we should find the way of avoiding the InGaN decomposition in LEDs and LDs. (English)
14 October 2020
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Identifiers
POIR.04.04.00-00-3C81/16
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