Silver Embedded Nanomesas as Enhanced Single Quantum Dot Emitters in the Telecommunication C Band
スポンサーリンク
概要
- 論文の詳細を見る
We use high-density InAs quantum dots, which were grown by molecular beam epitaxy on InP(311)B substrates, as photon sources in the telecommunication C band at approximately 1.55 μm. To select a small numbers of dots, we fabricate sub-micrometer sized mesas by electron beam lithography and reactive ion etching. The benefit of using high-density quantum dot samples is that at least one optically active quantum dot can be expected in every single mesa. We show that the etching rate and resulting mesa shape of the In0.53Al0.22Ga0.25As epitaxial layer can be varied with the chamber pressure during the etching process. Furthermore, under constant pressure and with increasing etching time, the sequential etching of the epitaxial layer and the underneath substrate leads to a significant modification in the mesa shape, too. We demonstrate that the isolation of a small number of quantum dots within one mesa results in the appearance of single quantum dot emission with a narrow line width and minimal spectral overlap between different emission lines. We moreover present significant enhancement of the luminescence collected from single dots in silver-embedded nanomesas when compared with as-etched mesas.
- 2012-06-25
著者
-
Sasaki Masahide
National Inst. Information And Communications Technol. (nict) Tokyo Jpn
-
Akahane Kouichi
National Inst. Information And Communications Technol. (nict) Tokyo Jpn
-
Suemune Ikuo
Research Institute For Electronic Science Hokkaido University
-
Jahan Nahid
Research Institute for Electronic Science, Hokkaido University, Sapporo 001-0021, Japan
-
Huh Jae-Hoon
Research Institute for Electronic Science, Hokkaido University, Sapporo 001-0021, Japan
-
Hermannstadter Claus
Research Institute for Electronic Science, Hokkaido University, Sapporo 001-0021, Japan
-
Suemune Ikuo
Reseach Institute for Electronic Science, Hokkaido University, Sapporo 001-0021, Japan
関連論文
- Optical Rabi Oscillations in a Quantum Dot Ensemble
- P-Type Doping Limits in ZnMgSSe and ZnSSe Compound Semicomductors
- On p-Type Doping Limits in ZuMgSSe Quaternary Semiconductors
- MOMBE Growth of Nitrogen-Doped p-Type ZnSe
- Temperature Dependence of ZnS Growth with Atmospheric-Pressure Metalorganic Vapor Phase Epitaxy Using Ditertiarybutyl Sulfide
- 1-km free-space quantum key distribution experiments between portable optical terminals for space communications(WSANE 2009 (Workshop for Space, Aeronautical and Navigational Electronics))
- Superconductor-based Light Emitting Diode: Demonstration of Role of Cooper Pairs in Radiative Recombination Processes
- Bandgap Energy of GaNAs Alloys Grown on (001) GaAs by Metalorganic Molecular Beam Epitaxy
- Structural and Luminescence Properties of InAs Quantum Dots : Effect of Nitrogen Exposure on Dot Surfaces
- Metalorganic Molecular-Beam Epitaxial Growth and Optical Properties of Er-Doped GaNP
- Selective Growth of Highly Packed Array of ZnCdS Quantum Dots with a Mask Prepared by Atomic Force Microscope Nanolithography
- Low-Temperature Selective Growth of ZnSe and ZnS on (001) GaAs Patterned with Carbonaceous Mask by Metalorganic Molecular-Beam Epitaxy
- ZnSe/ZnS Distributed Bragg Reflectors in the Blue Region Grown on (311)B GaAs Substrates
- Selective Growth Conditions of ZnSe/ZnS Heterostructures on (001) GaAs with Metalorganic Molecular Beam Epitaxy
- Self-Organized CdSe Quantum Dots on (100)ZnSe/GaAs Surfaces Grown by Metalorganic Molecular Beam Epitaxy ( Quantum Dot Structures)
- Atomic Force Microscope Nanolithography on SiO_2/Semiconductor Surfaces ( Quantum Dot Structures)
- Purge Effect on Heterointerfaces of ZnSe/MgS Superlattices Grown by Metalorganic Vapor Phase Epitaxy
- Excitonic Properties in ZnSe/MgS Superlattices
- Initial Growth Processes of ZnSe on Cleaned GaAs(001) Surfaces by Metalorganic Vapor Phase Epitaxy
- Ultrahigh Relative Refractive Index Contrast GaAs Nanowire Waveguides
- Superconducting NbTiN Nanowire Single Photon Detectors with Low Kinetic Inductance
- Ultrafast Response Induced by Interference Effects between Weakly Confined Exciton States(Condensed matter: electronic structure and electrical, magnetic, and optical properties)
- Luminescence of Excitons Localized by Monolayer Interface Fluctuations in ZnSe/MgS Superlattices Grown by Metalorganic Vapor Phase Epitaxy ( Quantum Dot Structures)
- Nucleation Stages of Carbon Nanotubes on SiC(0001) by Surface Decomposition
- A Cooper-Pair Light-Emitting Diode : Temperature Dependence of Both Quantum Efficiency and Radiative Recombination Lifetime
- Energy Transfer in Multi-Stacked InAs Quantum Dots
- Developing a Half-Cladding Semiconductor Photonic Device Structure for Surface Transmission of Light Waves
- Quantum Dot Optical Frequency Comb Laser with Mode-Selection Technique for 1-μm Waveband Photonic Transport System
- Novel Functionality and Material for Si-Photonics: Two-Photon Absorption Switching and Antimonide Hetero-Genius Epitaxy(Evolution of Microwave and Millimeter-Wave Photonics Technology)
- Fabrication of Sb-based QDs for long-wavelength VCSELs
- Temperature Dependent Performances of Superconducting Nanowire Single-Photon Detectors in an Ultralow-Temperature Region
- Role of Indium on Nitrogen Incorporation in GaNAs Grown by Metalorganic Molecular-Beam Epitaxy
- Temperature Dependent Performances of Superconducting Nanowire Single-Photon Detectors in an Ultralow-Temperature Region
- Nucleation and Faceting in Selectively Grown ZnS Pyramidal Dot Array for Short-Wavelength Light Emitters
- Field demonstration of differential-phase-shift QKD system over 90-km link under the framework of Tokyo QKD Network (光通信システム)
- Interface states of AlSb/InAs heterointerface with AlAs-like interface
- Selective Formation of Self-Organized InAs QDs on Patterned GaAs Substrates by Molecular Beam Epitaxy
- 1.55-μm-waveband lasing operation of Sb-based quantum-dot vertical-cavity surface-emitting lasers (Sb-based QD-VCSELs) fabricated on GaAs substrate
- Growth of InAsSb Quantum Dots on GaAs Substrates Using Periodic Supply Epitaxy
- Enhancing Detection Efficiency by Applying an Optical Cavity Structure in a Superconducting Nanowire Single-Photon Detector
- Scale-dependent Optical Near-fields in InAs Quantum Dots and Their Application to Non-pixelated Memory Retrieval
- Discrimination of Compound Semiconductor Heterointerfaces by Simultaneous Observations of Atomic Force Microscopy and Lateral Force Microscopy
- Future Perspective of Quantum Cryptography
- Conversion of Light Propagation Direction for Highly Efficient Solar Cells
- Single InAs quantum dots in metal embedded nano-cone structures emitting in the telecommunication O and C bands (レーザ・量子エレクトロニクス)
- Single InAs quantum dots in metal embedded nano-cone structures emitting in the telecommunication O and C bands (光エレクトロニクス)
- Single InAs quantum dots in metal embedded nano-cone structures emitting in the telecommunication O and C bands (機構デバイス)
- Single InAs quantum dots in metal embedded nano-cone structures emitting in the telecommunication O and C bands (電子部品・材料)
- Cooper-Pair Radiative Recombination in Semiconductor Heterostructures : Impact on Quantum Optics and Optoelectronics (Centennial Anniversary of Superconductivity) -- (SELECTED TOPICS IN APPLIED PHYSICS)
- Luminescence of Excitons Localized by Monolayer Interface Fluctuations in ZnSe/MgS Superlattices Grown by Metalorganic Vapor Phase Epitaxy
- Photon-pair generation based on superconductivity
- Characterization of Wavelength-Tunable Quantum Dot External Cavity Laser for 1.3-μm-Waveband Coherent Light Sources
- Silver Embedded Nanomesas as Enhanced Single Quantum Dot Emitters in the Telecommunication C Band
- Enhancement of Optical Anisotropy by Interconnection Effect along Growth Direction in Multistacked Quantum Dots
- Negligible Pure Dephasing in InAs Self-Assembled Quantum Dots
- Superconductor-Based Quantum-Dot Light-Emitting Diodes: Role of Cooper Pairs in Generating Entangled Photon Pairs
- GaNAs as Strain Compensating Layer for 1.55 μm Light Emission from InAs Quantum Dots
- Selective Growth of Highly Packed Array of ZnCdS Quantum Dots with a Mask Prepared by Atomic Force Microscope Nanolithography
- Metalorganic MBE Growth of Nitrogen-doped ZnSe: TAN Doping and Nitrogen Plasma Doping
- Nucleation and Growth Mode of GaN on Vicinal SiC Surfaces
- 1.55-μm-Waveband Emissions from Sb-Based Quantum-Dot Vertical-Cavity Surface-Emitting Laser Structures Fabricated on GaAs Substrate
- Optical Cavity Properties of Metal Mirror Microcavities with InAsSb Quantum Dots
- Selective Formation of Self-Organized InAs Quantum Dots Grown on Patterned GaAs Substrates by Molecular Beam Epitaxy
- High-Quality GaSb/AlGaSb Quantum Well Grown on Si Substrate
- Gain Measurement of Highly Stacked InGaAs Quantum Dot Laser with Hakki--Paoli Method
- Temporal Characteristics of Pulsed Squeezing in a Nonlinear Optical Waveguide
- Role of Nitrogen Precursor Supplies on InAs Quantum Dot Surfaces in Their Emission Wavelengths
- Fabrication of Metal Embedded Nano-Cones for Single Quantum Dot Emission
- Enhanced Photon Extraction from a Quantum Dot Induced by a Silver Microcolumnar Photon Reflector
- Fiber-Based Bidirectional Solid-State Single-Photon Emitter Based on Semiconductor Quantum Dot
- 10-GHz High-Repetition Optical Short Pulse Generation from Wavelength-Tunable Quantum Dot Optical Frequency Comb Laser
- Growth of InAsSb Quantum Dots on GaAs Substrates Using Periodic Supply Epitaxy
- Selective Growth Conditions of ZnSe/ZnS Heterostructures on (001) GaAs with Metalorganic Molecular Beam Epitaxy
- Metal-embedded Nanocone Structure Incorporating an InAs QD for Efficient Single-photon Emission
- 10-GHz High-Repetition Optical Short Pulse Generation from Wavelength-Tunable Quantum Dot Optical Frequency Comb Laser
- Fiber-Based Bidirectional Solid-State Single-Photon Emitter Based on Semiconductor Quantum Dot
- A semiconductor optical amplifier comprising highly stacked InAs quantum dots fabricated using the strain-compensation technique