Description

Book Synopsis
Focusing on helping researchers and engineers involved in III-V compound semiconductor thin film growth and processing, this text shows the mechanism of degradation, detailing the major degradation modes of optical devices fabricated from three different systems.

Table of Contents
Introduction. Materials and Structures of Optical Devices: Materials for Optical Devices. Structures of Optical Devices. Crystal Growth: Preparation of Materials by LPE. Preparation of Materials by MOVPE. Preparation of Materials by MBE. Fabrication Processes of Optical Devices: Fabrication Processes. Device Characteristics and Life Testing: Device Characteristics. Life Testing of Devices. Evaluation Techniques for III-V Compound Semiconductors and Degraded Optical Devices: Classification of Evaluation Techniques. Visual Inspection. Chemical Etching. Optical Measurement. Electrical Measurement. Structural Evaluation of Semiconductors by Transmission Electron Microscopy. Analytical Techniques. Flow Chart for Evaluation of Degraded Optical Devices. Materials Issues in III-V Compound Semiconductors I -- Defect Generation: Classification of Defects. Growth-induced Defects. Process-induced defects. Materials Issues in III-V Compound Semiconductors I -- Thermal Stability of III-V Alloy Semiconductors: Composition Modulated Structures. Ordered Structures. Influence of Modulated Structures on the Properties and Reliability of Optical Devices. Classification of Degradation Modes and Degradation Phenomena in Optical Devices: Classification of Degradation Modes in the Life Testing of Lasers and LEDs. Classification of Degradation Phenomena in Lasers. Degradation in LEDs. Influence of Stress on the Device Degradation. Degradation I -- Rapid Degradation: Rapid Degradation in GaAlAs/GaAs Optical Devices. Rapid Degradation in InGaAsP/InP Optical Devices. Rapid Degradation in InGaAsP/InGaP Optical Devices. Comparison of Recombination-enhanced Defect Reaction in Different III-V Materials. Elimination of the Rapid Degradation. Degradation II -- Gradual Degradation: Gradual Degradation in GaAlAs DH LEDs. Gradual Degradation in InGaAsP/InP DH LEDs. Comparison of Gradual Degradation in GaAlAs/GaAs and In GaAsP/InP Optical Devices. Enhancement of Gradual Degradation by Internal Stress in GaAlAs Visible Lasers. Degradation III -- Catastrophic Failure: Catastrophic Failure in Lasers. Catastrophic Failure in LEDs. Elimination of Catastrophic Failure.

Reliability and Degradation of IIIV Optical Devices Solid State Technology Devices Library

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A Hardback by Osamu Ueda

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    View other formats and editions of Reliability and Degradation of IIIV Optical Devices Solid State Technology Devices Library by Osamu Ueda

    Publisher: Artech House Publishers
    Publication Date: 9/30/1996 12:00:00 AM
    ISBN13: 9780890066522, 978-0890066522
    ISBN10: 0890066523
    Also in:
    Optical physics Electronic devices and materials

    Description

    Book Synopsis
    Focusing on helping researchers and engineers involved in III-V compound semiconductor thin film growth and processing, this text shows the mechanism of degradation, detailing the major degradation modes of optical devices fabricated from three different systems.

    Table of Contents
    Introduction. Materials and Structures of Optical Devices: Materials for Optical Devices. Structures of Optical Devices. Crystal Growth: Preparation of Materials by LPE. Preparation of Materials by MOVPE. Preparation of Materials by MBE. Fabrication Processes of Optical Devices: Fabrication Processes. Device Characteristics and Life Testing: Device Characteristics. Life Testing of Devices. Evaluation Techniques for III-V Compound Semiconductors and Degraded Optical Devices: Classification of Evaluation Techniques. Visual Inspection. Chemical Etching. Optical Measurement. Electrical Measurement. Structural Evaluation of Semiconductors by Transmission Electron Microscopy. Analytical Techniques. Flow Chart for Evaluation of Degraded Optical Devices. Materials Issues in III-V Compound Semiconductors I -- Defect Generation: Classification of Defects. Growth-induced Defects. Process-induced defects. Materials Issues in III-V Compound Semiconductors I -- Thermal Stability of III-V Alloy Semiconductors: Composition Modulated Structures. Ordered Structures. Influence of Modulated Structures on the Properties and Reliability of Optical Devices. Classification of Degradation Modes and Degradation Phenomena in Optical Devices: Classification of Degradation Modes in the Life Testing of Lasers and LEDs. Classification of Degradation Phenomena in Lasers. Degradation in LEDs. Influence of Stress on the Device Degradation. Degradation I -- Rapid Degradation: Rapid Degradation in GaAlAs/GaAs Optical Devices. Rapid Degradation in InGaAsP/InP Optical Devices. Rapid Degradation in InGaAsP/InGaP Optical Devices. Comparison of Recombination-enhanced Defect Reaction in Different III-V Materials. Elimination of the Rapid Degradation. Degradation II -- Gradual Degradation: Gradual Degradation in GaAlAs DH LEDs. Gradual Degradation in InGaAsP/InP DH LEDs. Comparison of Gradual Degradation in GaAlAs/GaAs and In GaAsP/InP Optical Devices. Enhancement of Gradual Degradation by Internal Stress in GaAlAs Visible Lasers. Degradation III -- Catastrophic Failure: Catastrophic Failure in Lasers. Catastrophic Failure in LEDs. Elimination of Catastrophic Failure.

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