Improvement of Super-RENS MO Disk Characteristics by Optimized Super-Resolution Near-Field Structure
スポンサーリンク
概要
- 論文の詳細を見る
As a result of applying super-resolution near-field structure to a magneto-optical disk with a non-magnetic mask layer such as a silver oxide light scattering center type mask layer, we could retrieve the signals of below 200-nm mark length.With the improved antimony transparent aperture type mask layer, in this work, we could get the polarized magneto-optical signals as well that we had not been able to obtain by using the previous antimony mask layer.This was well agreed with computer simulation result.Another optimization, such as magnetic layer thickness, dielectric materials and so on, was also investigated for a better magneto-optical disk of super-resolution near-field structure with a silver oxide light scattering center type mask layer.
- 社団法人日本磁気学会の論文
- 2001-03-15
著者
-
FUJI Hiroshi
Advanced Technology Research Laboratories, Sharp Corporation
-
TOMINAGA Junji
Advanced Optical Memory Group, National Institute for Advanced Interdisciplinary Research (NAIR)
-
NAKANO Takashi
Advanced Optical Memory Group, National Institute for Advenced Interdisciplinary Research (NAIR)
-
ATODA Nobufumi
Advanced Optical Memory Group, National Institute for Advanced Interdisciplinary Research (NAIR)
-
Kim J
Digital Media R&d Center Samsung Electronics Co. Ltd.
-
Fuji H
Sharp Corp. Nara Jpn
-
Fuji Hiroshi
Advanced Technology Research Laboratories Sharp Corporation
-
Tominaga J
Center For Applied Near-field Optics Research (can-for) Aist
-
Tominaga J
Chikumagawa The 1st Technical Center Tdk
-
Tominaga Junji
Advanced Optical Memory Group National Institute For Advanced Interdisciplinary Research
-
Atoda Nobufumi
Laboratory For Advanced Optical Technology National Institute Of Advanced Industrial Science And Tec
-
Atoda N
Sortec Ibaraki Jpn
-
Atoda Nobufumi
Sortec
-
Atoda Nobufumi
Advanced Optical Memory Group National Institute For Advanced Interdisciplinary Research
-
D. Buchel
National Institute for Advanced Interdisciplinary Research (NAIR) Advanced Optical Memory Group
-
Atoda N.
National Institute for Advanced Interdisciplinary Research (NAIR) Advanced Optical Memory Group
-
Dorothea Buechel
Advanced Optical Memory Group National Institute For Advanced Interdisciplinary Research (nair)
-
Shima Takayuki
Center For Applied Near-field Optics Research (can-for) Aist
-
Atoda N
Laboratory For Advanced Optical Technology National Institute Of Advanced Industrial Science And Tec
-
Jooho Kim
Advanced Optical Memory Group National Institute for Advanced Interdisciplinary Research (NAIR)
-
Shima Takayuki
Advanced Optical Memory Group National Institute for Advanced Interdisciplinary Research (NAIR)
-
KIM Jooho
Advanced Optical Memory Group, National Institute for Advanced Interdisciplinary Research (NAIR)
-
Kim J.
Digital Media R&d Center Samsung Electronics Co. Ltd.
-
Nakano T
Center For Applied Near-field Optics Research (can-for) National Institute Of Advanced Industrial Sc
-
Shima Takayuki
Center For Applied Near-field Optics Research (can-for) National Institute Of Advanced Industrial Sc
-
Fuji Hiroshi
Advanced Technology Research Laboratories Sharp Corp.
-
Nakano Takashi
Advanced Optical Memory Group, National Institute for Advanced Interdisciplinary Research (NAIR), 1-1-4 Higashi, Tsukuba 305-8562, Japan
-
Nakano Takashi
Advanced Optical Memory Group, NAIR, MITI
-
Kim Jooho
Advanced Optical Memory Group National Institute for Advanced Interdisciplinary Research (NAIR)
関連論文
- Observation of Eye Pattern on Super-Resolution Near-Field Structure Disk with Write-Strategy Technique
- Super-Resolution Read-Only Memory Disk with Metal Nanoparticles or Small Aperture
- Super-Resolution Near-Field Structure and Signal Enhancement by Surface Plasmons
- Soft Magnetic Properties and Microstructures of As-sputtered Fe-M-O (M=Hf, Al) Films
- In-situ Raman Scattering Spectroscopy for a Super Resolution Optical Disk during Readout
- Electroplated Reflection Masks for Soft X-Ray Projection Lithography
- Resist Performance in 5 nm Soft X-Ray Projection Lithography
- Reduction Imaging at 4.5 nm with Schwarzschild Optics
- Fabrication of 0.1μm Line-and-Space Patterns using Soft X-Ray Reduction Lithography
- Sub-0.1 μm Resist Patterning in Soft X-Ray (13 nm) Projection Lithography
- High Density Recording Capability of Laser-Assisted Magnetic Recording
- Optical Properties of Metal-Oxide Films in Super-RENS
- Super-Resolutional Readout Disk with Metal-Free Phthalocyanine Recording Layer
- Spectroscopic Investigation of AgO_x Films for Super Resolution Near Field Structure Application
- Antimony Aperture Properties on Super-Resolution Near-Field Structure using Different Protection Layers
- The Near-Field Super-Resolution Properties of an Antimony Thin Film
- Thermal Lithography for 100-nm Dimensions Using a Nano-Heat Spot of a Visible Laser Beam : Instrumentation, Measurement, and Fabrication Technology
- Readout Durability Improvement of Super-Resolution Near-Field Structure Discs with PtO_x-SiO_2 Recording and GeN_y Interfacial Layers
- Analysis of Deformation of X-Ray Mask Membrane in Aligner Motion
- Effect of Helium Gas Pressure on X-Ray Mask Heating during Synchrotron Radiation Exposure
- In-Ag-Te-Sb Phase Change Recording Media at Compact Disk Linear Velocity
- V and Ti Doping Effect on In-Ag-Te-Sb Optical Phase Change Rewritable Disc
- New Recordable Compact Disc with Inorganic Material, AgO_x
- Thermal Origin of Readout Mechanism of Light-Scattering Super-Resolution Near-Field Structure Disk
- High-Speed Optical Near-Field Photolithography by Super Resolution Near-Field Structure
- Improvement of Super-RENS MO Disk Characteristics by Optimized Super-Resolution Near-Field Structure
- Super-Resolution Readout Using a Silver Scattering Center with Plasmon Excitation Generated in a Non-Magnetic Readout Layer
- Magneto-Optical Characteristics Enhanced by Super Resolution Near Field Structure
- The Effects of Metal-Doped GeSbTe Films on Light Scattering-Mode Super-Resolution Near-Field Structure (Super-RENS)
- Near-Field Optical Simulation of Super-Resolution Near-Field Structure Disks
- Oxygen Doping Effects on Super-resolution Scattering-mode Near-field Optical Data Storage
- A Near-Field Recording and Readout Technology Using a Metallic Probe in an Optical Disk
- The Characteristics and the Potential of Super Resolution Near-Field Structure
- Double Optical Phase Transition of GeSbTe Thin Films Sandwiched between Two SiN Layers
- Effect of SiO2 addition to PtOx recording layer of super-resolution near-field structure disc (Special issue: Optical memories)
- Metal-Free Phthalocyanine Layer Prepared on Read-Only-Memory Disc for Super-Resolution Readout
- Super-RENS Disk for Blue Laser System Retrieving Signals from Polycarbonate Substrate Side
- Readout Power Dependence of Signal Distribution Observed in Fourier Plane of Focus Spot
- An Approach to Lower the Threshold Laser Power of Super-Resolutional-Readout Optical Disk Using Silver Telluride Layer
- Scanning Tunneling Microscopy Image of GeSb_2Te_4 Thin Films
- Bit-by-Bit Detection on Super-Resolution Near-Field Structure Disk with Platinum Oxide Layer
- Recording and Readout Mechanisms of Super-Resolution Near-Field Structure Disc with Silver-Oxide Layer
- Electrical Properties of Nanometer-Width Refractory Metal Lines Fabricated by Focused Ion Beam and Oxide Resists
- 50-nm Metal Line Fabrication by Focused Ion Beam and Oxide Resists : Focused Ion Beam Process
- 50-nm Metal Line Fabrication by Focused Ion Beam and Oxide Resists
- Focused Ion Beam Fabrication of Fine Metal Structures by Oxide Resists : Beam-Induced Physics and Chemistry
- Focused Ion Beam Fabrication of Fine Metal Structures by Oxide Resists
- Nanoscale Dots Fabrication by Volume Change Thermal Lithography
- Signal Characteristics of Super-Resolution Near-Field Structure Disks with 100GB Capacity
- Super Resolution Read Only Memory Disc Using Super-Resolution Near-Field Structure Technology
- Signal Characteristics of Super-Resolution Near-Field Structure Disk in Blue Laser System
- Mechanism of Resist Pattern Collapse during Development Process
- Dual Function of Thin MoO_3 and WO_3 Films as Negative and Positive Resists for Focused Ion Beam Lithography
- First Playback of High-Definition Video Contents from Super-Resolution Near-Field Structure Optical Disc
- Study of the Crystallization of GeSbTe Films by Raman Spectroscopy
- Capacity Increase in Radial Direction of Super-Resolution Near-Field Structure Read-Only-Memory Disc
- 3D Simulation of Thin Film Inductor using Permalloy as a Conductor
- Newly Designed Spiral type Thin Film Inductor
- Readout Power Dependence of Signal Distribution Observed in Fourier Plane of Focus Spot
- Readout Durability Improvement of Super-Resolution Near-Field Structure Discs with PtOx–SiO2 Recording and GeNy Interfacial Layers
- Focused Ion Beam Lithography with Transition Metal Oxide Resists : Lithography Technology
- Super-Resolution Readout of 50 nm Read-Only-Memory Pits Using Optics Based on High-Definition Digital Versatile Disc
- Bit-by-Bit Detection on Super-Resolution Near-Field Structure Disk with Platinum Oxide Layer
- Super-Resolution Near-Field Structure and Signal Enhancement by Surface Plasmons
- Effect of SiO2 Addition to PtOx Recording Layer of Super-Resolution Near-Field Structure Disc
- Thermal Origin of Readout Mechanism of Light-Scattering Super-Resolution Near-Field Structure Disk
- Pinning Effect Induced by Underlayer in TbFeCo Magnetic Recording Media
- Role of Ge Switch in Phase Transition: Approach using Atomically Controlled GeTe/Sb2Te3 Superlattice
- Optical and Structural Property Change by the Thermal Decomposition of Amorphous Platinum Oxide Film
- Near-Field Optical Simulation of Super-Resolution Near-Field Structure Disks
- Magneto-Optical Characteristics Enhanced by Super Resolution Near Field Structure
- The Effects of Metal-Doped GeSbTe Films on Light Scattering-Mode Super-Resolution Near-Field Structure (Super-RENS)
- Super-Resolutional Readout Disk with Metal-Free Phthalocyanine Recording Layer
- Optical Disc Simulation Program Unified by Electromagnetic and Thermal Distributions
- High-Speed Fabrication of Super-Resolution Near-Field Structure Read-Only Memory Master Disc using PtOx Thermal Decomposition Lithography
- Recording and Readout Mechanisms of Super-Resolution Near-Field Structure Disc with Silver-Oxide Layer
- A Reversible Change of Reflected Light Intensity between Molten and Solidified Ge–Sb–Te Alloy
- A Study of Material Selection for Super-Resolution Readout of Optical Disk with PtOx Recording Layer
- Antimony Aperture Properties on Super-Resolution Near-Field Structure using Different Protection Layers