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Epitaxial Design Optimizations for Increased Efficiency in GaAs-Based High Power Diode Lasers

By: Material type: TextTextSeries: Description: 1 online resource (137 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 3736963963
  • 9783736963962
Subject(s): Genre/Form: LOC classification:
  • TA1700 .E658 2021
Online resources: Available additional physical forms:
Contents:
Contents -- List of Publications -- Abstract -- Kurzfassung -- 1 Introduction -- 1.1 Structure and method of this work -- 2 Fundamentals -- 2.1 Laser technology and market context -- 2.2 Fabrication technology -- 2.3 Mathematical framework of semiconductor lasers -- 2.4 Parameters for characterization of broad area diode lasers -- 2.5 Simulation tools -- 2.6 Device configurations and measurement setups -- 3 Literature Review, Prior State of the Art and Target Specifications -- 3.1 Power and efficiency limiting effects -- an overview -- 3.2 Target specifications -- 3.3 Prior state of the art high power diode lasers and laser bars -- 4 Novel Epitaxial Layer-Stack Design for Increased Efficiency -- 4.1 General epitaxial design considerations -- 4.2 Prior state of the art epitaxial design concepts and their limits -- 4.3 ETAS: The novel extreme triple asymmetric design concept -- 5 Diagnosis and Analysis of Power Limiting Mechanisms -- 5.1 Devices designed and used for diagnosis -- 5.2 Quantifying thermal- and bias-driven contributions to rollover -- 5.3 Bias-driven power limitations -- 5.4 Thermal-driven power limitations -- 6 Performance of Diode Lasers Using Optimized VerticalDesigns -- 6.1 Impact of optical confinement on T0 and T1 -- 6.2 Measurement results of diode laser bars -- 6.3 Short-term perspective for further improved performance -- 7 Conclusion and Outlook -- 7.1 The role of optical loss in thermal power saturation -- 7.2 The role of internal differential quantum efficiency in thermal power saturation -- 7.3 Performance of optimized devices using the novel ETAS design -- 7.4 Outlook -- 8 Acknowledgements -- A Appendix -- B List of Abbreviations -- Bibliography.
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Item type Current library Collection Call number URL Status Date due Barcode
Online Book (LOGIN USING YOUR MY CIU LOGIN AND PASSWORD) Online Book (LOGIN USING YOUR MY CIU LOGIN AND PASSWORD) G. Allen Fleece Library ONLINE Non-fiction TA1700 (Browse shelf(Opens below)) Link to resource Available on1246582541

Description based upon print version of record.

Includes bibliographies and index.

Intro -- Contents -- List of Publications -- Abstract -- Kurzfassung -- 1 Introduction -- 1.1 Structure and method of this work -- 2 Fundamentals -- 2.1 Laser technology and market context -- 2.2 Fabrication technology -- 2.3 Mathematical framework of semiconductor lasers -- 2.4 Parameters for characterization of broad area diode lasers -- 2.5 Simulation tools -- 2.6 Device configurations and measurement setups -- 3 Literature Review, Prior State of the Art and Target Specifications -- 3.1 Power and efficiency limiting effects -- an overview -- 3.2 Target specifications -- 3.3 Prior state of the art high power diode lasers and laser bars -- 4 Novel Epitaxial Layer-Stack Design for Increased Efficiency -- 4.1 General epitaxial design considerations -- 4.2 Prior state of the art epitaxial design concepts and their limits -- 4.3 ETAS: The novel extreme triple asymmetric design concept -- 5 Diagnosis and Analysis of Power Limiting Mechanisms -- 5.1 Devices designed and used for diagnosis -- 5.2 Quantifying thermal- and bias-driven contributions to rollover -- 5.3 Bias-driven power limitations -- 5.4 Thermal-driven power limitations -- 6 Performance of Diode Lasers Using Optimized VerticalDesigns -- 6.1 Impact of optical confinement on T0 and T1 -- 6.2 Measurement results of diode laser bars -- 6.3 Short-term perspective for further improved performance -- 7 Conclusion and Outlook -- 7.1 The role of optical loss in thermal power saturation -- 7.2 The role of internal differential quantum efficiency in thermal power saturation -- 7.3 Performance of optimized devices using the novel ETAS design -- 7.4 Outlook -- 8 Acknowledgements -- A Appendix -- B List of Abbreviations -- Bibliography.

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