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Research Center For Quantum Effect Electronics Tokyo Institute Of Technology | 論文
- Electric Field-Effect Enhancement by a Combination of Coplanar High-Tc Superconducting Devices with Step-Edge Junctions
- Electric Properties of Coplanar High-T_c Superconducting Field-Effect Devices
- Novel In(OH)_3:Zn^ Buffer Layer for Cu(InGa)Se_2 Based Solar Cells
- Phosphorous Doping of Strain-Induced Si_C_y Epitaxial Films Grown by Low-Temperature Chemical Vapor Deposition
- Preferred Orientation Control of Cu(In_Ga_x)Se_2 (x≈0.28) Thin Films and Its Influence on Solar Cell Characteristics
- Epitaxial Growth of γ-In_2Se_3 Films by Molecular Beam Epitaxy
- High-Reflectivity Semiconductor/Benzocyclobutene Bragg Reflector Mirrors for GaInAsP/InP Lasers
- Highly Uniform 1.5 μm Wavelength Deeply Etched Semiconductor/Benzocyclobutene Distributed Bragg Reflector Lasers
- Theoretical Analysis of GaInAsP/InP Multiple Micro-Cavity Laser
- Continuous Wave Operation of 1.55 μm GaInAsP/InP Laser with Semiconductor/Benzocyclobutene Distributed Bragg Reflector
- Multiple Micro-Cavity Laser with Benzocyclobutene/Semiconductor High Reflective Mirrors Fabricated by CH_4/H_2-Reactive Ion Etching
- GaInAsP/InP Multiple Short Cavity Laser with λ/4-Air Gap/Semiconductor Bragg Reflectors
- GaInAsP/InP Long Wavelength Quantum-Wire Lasers
- [Invited]GaInAsP/InP Long Wavelength Quantum-Wire Lasers
- Room Temperature-Copntinuous Wave Operation of GaInAsP/InP Multiple-Quantum-Wire Lasers by Dry Etching and Regrowth Method
- Cholesterol Esterase Bound to Intestinal Brush Border Membranes Does Not Accelerate Incorporation of Micellar Cholesterol into Absorptive Cells(Biochemistry & Molecular Biology)
- Reliable Operation of GaInAsP/InP Distributed Feedback Laser with Wirelike Active Regions
- Distributed Reflector Lasers with First-Order Vertical Grating and Second-Order Bragg Reflectors
- GaInAsP/InP Distributed Reflector Lasers Consisting of Deeply Etched Vertical Gratings : Optics and Quantum Electronics
- 1.5-μm-Wavelength Distributed Feedback Lasers With Deeply Etched First-Order Vertical Grating : Optics and Quantum Electronics