The Application of Semiconducting Low-Temperature Grown GaAs to Improve Laser Diodes Grown on Si Substrates
スポンサーリンク
概要
- 論文の詳細を見る
- 1996-08-26
著者
-
Chong T
Data Storage Inst. Singapore
-
Tan Leng
Centre For Optoelectronics Department Of Electrical Engineering National University Of Singapore
-
PHUA Cheng
Centre for Optoelectronics, Department of Electrical Engineering, National University of Singapore
-
CHONG Tow
Centre for Optoelectronics, Department of Electrical Engineering, National University of Singapore
-
LAU Wai
Centre for Optoelectronics, Department of Electrical Engineering, National University of Singapore
-
Lau W
Lam Res. Corp. California Usa
-
Chong T
National Univ. Singapore Singapore
-
Chong Tow
Data Storage Institute
-
Phua Cheng
Centre For Optoelectronics Department Of Electrical Engineering National University Of Singapore
-
Phua C
Data Storage Institute
-
Lau Wai
Centre For Optoelectronics Department Of Electrical Engineering National University Of Singapore
-
Chong Tow
Centre For Optoelectronics Department Of Electrical Engineering National University Of Singapore
-
Chong Tow
Data Storage Institute, DSI Building
関連論文
- Application of Semiconducting Low Temperature Grown GaAs to Improve Laser Diodes Grown on Si Substrates
- The Characterization of Traps in Semi-Insulating Gallium Arsenide Buffer Layers Grown at Low Temperature by Molecular Beam Epitaxy with an Improved Zero-Bias Thermally Stimurated Current Technique
- On the Possibility of High Density Data Storage Based on Modulation-Doped Electron Trapping Materials
- Numerical Simulation of Backgating Suppression in High Electron Mobility Transistors (HEMTs) with a Low Temperature Molecular Beam Epitaxy (MBE)-Grown Gallium Arsenide Buffer Layer between the Substrate and Active Layers
- The Application of Semiconducting Low-Temperature Grown GaAs to Improve Laser Diodes Grown on Si Substrates
- A Comparison of the Selective Etching Characteristics of Conventional and Low-Temperature-Grown GaAs over AlAs by Various Etching Solutions
- Rewritable Dual-Layer Initialization-Free Phase-Change Optical Disk
- Optical Transition of Chalcogenide Phase-Change Thin Films
- Evidence that N_2O is a Stronger Oxidizing Agent than O_2 for the Post-Deposition Annealing of Ta_2O_5 on Si Capacitors
- A Comparison of Defect States in Tantalum Pentoxide (Ta_2O_5) Films after Rapid Thermal Annealing in O_2 or N_2O by Zero-Bias Thermally Stimulated Current Spectroscopy
- A New Structure of Super-Resolution Near-Field Phase-Change Optical Disk with a Sb_2Te_3 Mask Layer
- Three-Dimensional Thermal Modelling and Analysis of Near-Field Phase Change Optical Disks
- Study of the Superlattice-Like Phase Change Optical Recording Disks
- Study of the Multi-Level Reflection Modulation Recording for Phase Change Optical Disks
- Thermal Modeling of Grooved Phase Change Optical Recording Disk
- Improved Crystalline Quality of Molecular Beam Epitaxy Grown GaAs-on-Si Epilayer through the Use of Low-Temperature GaAs Intermediate Layer
- Quantitative Detection of Oxygen Contamination Related Traps in Gallium Arsenide Epitaxial Layer Grown by Molecular Beam Epitaxy at Low Temperature
- The Development of a Highly Selective KI/I_2/H_2O/H_2SO_4 Etchant for the Selective Etching of Al_Ga_As over GaAs
- New Structure of Dual-Layer Rewritable Phase-Change Optical Disc
- Laser Diode Array Pumped Q-Switched Nd:YVO_4 Mini-Disc Laser with V-Folded Cavity
- Dynamic coercivity measurements on magnetic thin film media (マルチメディアストレージ--第5回アジア情報記録技術シンポジウム〔英文〕)
- CoCrPt-X(X=C, SiO2) granular thin film media for high areal density recording (マルチメディアストレージ--第5回アジア情報記録技術シンポジウム〔英文〕)
- DYNAMIC COERCIVITY MEASUREMENTS ON MAGNETIC THIN FILM MEDIA
- CoCrPt-X(X=C, SiO_2)granular thin film media for high areal density recording
- Fabrication and Characterization of Ion-Exchanged Optical Waveguides in Potassium Lithium Niobate Crystal Substrates(Optics and Quantum Electronics)
- Theoretical Analysis of Recording Light Distribution in Phase-Change Near-Field Recording Using Solid Immersion Lens
- Three-Dimensional Finite-Difference Time-Domain Analysis of Optical Disk Storage System
- Effect of Channel Coding in Digital Holographic Data Storage
- The Superiority of N_2O Plasma Annealing over O_2 Plasma Annealing for Amorphous Tantalum Pentoxide (Ta_2O_5) Films
- Elevated-Confined Phase-Change Random Access Memory Cells
- Plastic Deformation and Failure Analysis of Phase Change Random Access Memory
- Formation and Properties of Proton-exchanged Z-cut MgO:LiNbO_3 Crystal Waveguides
- Roles and Contributions of Surface Plasmons, Evanescent Modes and Propagation Modes for Near-Field Enhancement of Nano-Slit
- Multi-Dimensional Multi-Level Optical Pickup Head
- An Experimental Model of Sled System in an Optical Disk Drive
- Theoretical Analysis of Bound-to-Continuum State Infrared Absorption in GaAs/Al_xGa_As Quantum Well Structures
- Nanosecond AgGaS_2 Optical Parametric Oscillator with More Than 4 Micron Output
- Challenges and Opportunities in Magnetic Data Storage
- The Identification and Suppression of Defects Responsible for Electrical Hysteresis in Metal-Nitride-Silicon Capacitors
- Nanoscaling of Phase Change Memory Cells for High Speed Memory Applications
- Study of Recorded Mark Width Change with Laser Power in Heat-Assisted Magnetic Recording
- Role of Ge Switch in Phase Transition: Approach using Atomically Controlled GeTe/Sb2Te3 Superlattice
- Thermal Modeling of Grooved Phase Change Optical Recording Disk
- Theoretical Analysis of Recording Light Distribution in Phase-Change Near-Field Recording Using Solid Immersion Lens
- Optical Transition of Chalcogenide Phase-Change Thin Films
- One-Color Nonvolatile Holographic Recording in Ce:Tb:LiNbO3