Near Field Recording on First-Surface Write-Once Media with a $\mathrm{NA}=1.9$ Solid Immersion Lens
スポンサーリンク
概要
- 論文の詳細を見る
We present a single-wavelength near field recording set-up with a blue laser and a $\mathrm{NA}=1.9$ solid immersion lens in a conventional focus and tracking actuator. The most important aspects to realize such a near field recording system are discussed, in particular, gap error signal normalization and correction of chromatic aberration of the objective lens. First recording results demonstrate that the set-up is fully operational.
- 2005-05-15
著者
-
VERSCHUREN Coen
Philips Research
-
ZIJP Ferry
Philips Research
-
LEE Ju-Il
Philips Research
-
URBACH H.
Philips Research
-
Mark Martin
Philips Research Laboratories, Royal Philips Electronics, Prof. Holstlaan 4, 5656 AA, Eindhoven, The Netherlands
-
Mark Martin
Philips Research, Prof. Holstlaan 4, WY-31, 5656 AA Eindhoven, The Netherlands
-
Urbach H.
Philips Research, Prof. Holstlaan 4, WY-31, 5656 AA Eindhoven, The Netherlands
-
Eerenbeemd Jack
Philips Research, Prof. Holstlaan 4, WY-31, 5656 AA Eindhoven, The Netherlands
-
Zijp Ferry
Philips Research, Prof. Holstlaan 4, WY-31, 5656 AA Eindhoven, The Netherlands
-
Eerenbeemd Jack
Philips Research Laboratories, Royal Philips Electronics, Prof. Holstlaan 4, 5656 AA, Eindhoven, The Netherlands
関連論文
- Near Field Recording on First-Surface Write-Once Media with a NA = 1.9 Solid Immersion Lens
- Towards Cover-Layer Incident Read-Out of a Dual-layer Disc with a NA = 1.5 Solid Immersion Lens
- First-Surface Far Field Magneto-Optical Recording
- Development of an Air Gap Servo System for High Data Transfer Rate Near Field Optical Recording
- Blue Zero-Field Magnetic Amplifying Magneto-Optical System (MAMMOS) Recording
- High Numerical Aperture Optical Recording : Active Tilt Correction or Thin Cover Layer?
- Write Strategies for Improved Readout in RF-Magnetic AMplifying Magneto-Optical System
- Calculation of Fluorescence Intensities in Grazing-Emission X-Ray Fluorescence Spectrometry
- Resolution Limit of Optical Disc Mastering
- New Simulation for Wet and Dry Developable Photoresists
- Towards a Multi-Layer Near-Field Recording System: Dual-Layer Recording Results
- High-Density Near-Field Recording on Cover-Layer Protected Discs Using an Actuated 1.45 Numerical Aperture Solid Immersion Lens in a Robust and Practical System
- Effects of Polarization on Wave Front Measurements and Manufacturing of Solid Immersion Lenses for Near-Field Optical Recording
- Improved Near-Field Recording System for First-Surface Media with an $\mathrm{NA}=1.9$ Solid Immersion Lens
- Near-Field Recording with a Solid Immersion Lens on Polymer Cover-layer Protected Discs
- Blue Zero-Field Magnetic Amplifying Magneto-Optical System (MAMMOS) Recording
- Near Field Recording on First-Surface Write-Once Media with a $\mathrm{NA}=1.9$ Solid Immersion Lens
- Towards Cover-Layer Incident Read-Out of a Dual-layer Disc with a $\mathrm{NA}=1.5$ Solid Immersion Lens