Stabilities of Laser Pumped Magnetic Field Modulation Recording

Joint International Symposium on Optical Memory and Optical Data Storage Pub Date : 1900-01-01 DOI:10.1364/isom.1996.owd.4

Yasuhito Tanaka, M. Kurebayashi, S. Yonezawa

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Abstract

Direct overwriting and high density recording are key issues in optical recording. There are two optical recording methods i.e. (1) optical modulation recording and (2) magnetic field modulation recording. The optical modulation recording has more like optical oriented features to modulate laser beam with data while DC magnetic field is applied. The recorded mark size are limited by the diffraction optical spot size λ/2NA and complex media are necessary to comply with the demand of direct over writing. The magnetic field modulation recording method on the other hand has more magnetic oriented features to modulate magnetic field with data while constant waveform (DC or pulse train) laser irradiation is applied. The recorded mark size are limited by the magnetic field response applied and not limited by the optical spot size. The DC laser irradiation type has been used at Mini Disk™ and Laser pumped type has been used at HS ™ 3.5inch 650MB capacity magneto-optical drive. Moreover complex media are not necessary to comply with the demand of direct over writing, therefore the media applied magnetically induced super resolution(MSR) can be used easily.

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激光泵浦磁场调制记录的稳定性

直接覆盖和高密度记录是光学记录的关键问题。有两种光记录方法，即(1)光调制记录和(2)磁场调制记录。光调制记录在直流磁场作用下，更具有用数据调制激光束的光学定向特性。记录的标记尺寸受到衍射光斑尺寸λ/2NA的限制，并且需要复杂的介质来满足直接重写的要求。另一方面，磁场调制记录法在恒定波形(直流或脉冲串)激光照射下，具有更多的磁定向特性，可以用数据调制磁场。记录的标记尺寸受施加的磁场响应的限制，而不受光学光斑尺寸的限制。Mini Disk™采用直流激光照射型，HS™3.5英寸650MB容量磁光驱动器采用激光泵浦型。此外，复杂介质不需要满足直接改写的要求，因此应用磁致超分辨率(MSR)的介质可以方便地使用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Joint International Symposium on Optical Memory and Optical Data Storage

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