会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Optical information reproduction device, optical information recording device, optical information reproduction method, and optical information recording method
    • 光信息再现装置,光信息记录装置,光信息再现方法和光信息记录方法
    • US08451699B2
    • 2013-05-28
    • US13580406
    • 2011-02-23
    • Kenji NarumiMasahiro Birukawa
    • Kenji NarumiMasahiro Birukawa
    • G11B7/00
    • G11B7/0956G11B7/0908G11B7/1387
    • The present invention accurately operates a tilt servo even if a gap servo is operated with a small gap. A condensing unit (102) generates a near-field light and condenses a laser beam on an optical disk (1), a light quantity detection unit (104) detects light quantity of return light from an area where the near-field light is generated, a gap control unit (105) controls a gap between the condensing unit (102) and the optical disk (1) based on the light quantity of the return light, a tilt calculation unit (106) calculates, in a state of controlling the gap, an inclination amount between the condensing unit (102) and the optical disk (1) based on the light quantity of the return light, a tilt error signal generation unit (107) generates from the inclination amount a tilt error signal, which is a signal from which a fluctuation component of the return light generated due to decentering of the optical disk (1) is removed, and a tilt control unit (108) controls the inclination between the condensing unit (102) and the optical disk (1) based on the tilt error signal.
    • 即使间隙伺服以小的间隙操作,本发明也能精确地操作倾斜伺服。 聚光单元(102)产生近场光并将激光束聚光在光盘(1)上,光量检测单元(104)检测来自产生近场光的区域的返回光的光量 ,间隙控制单元(105)基于返回光的光量来控制聚光单元(102)和光盘(1)之间的间隙,倾斜计算单元(106)在控制 间隙,基于返回光的光量在聚光单元(102)和光盘(1)之间的倾斜量,倾斜误差信号生成单元(107)从倾斜量产生倾斜误差信号,倾斜误差信号是 去除由于光盘(1)的偏心而产生的返回光的波动分量的信号,并且倾斜控制单元(108)控制聚光单元(102)和光盘(1)之间的倾斜度, 基于倾斜误差信号。
    • 8. 发明授权
    • Magneto-optical recording medium
    • 磁光记录介质
    • US06399227B1
    • 2002-06-04
    • US08160976
    • 1993-11-30
    • Yoshihiko KudohYasumori HinoYuuichi FukamachiMasahiro Birukawa
    • Yoshihiko KudohYasumori HinoYuuichi FukamachiMasahiro Birukawa
    • B32B1518
    • G11B11/10591G11B11/10523G11B11/10584Y10T428/1143Y10T428/12646Y10T428/12861Y10T428/12931Y10T428/24942Y10T428/265
    • A magneto-optical recording medium including a recording layer for recording information and a substrate for supporting the recording layer is disclosed. The recording layer includes: a recording magnetic film for recording the information, the recording magnetic film being formed of a perpendicular magnetic anisotropy film; a readout magnetic film for optically reading out the information, the readout magnetic film being capable of being magnetically coupled with the recording magnetic film by an exchange-coupling force; and a controlling magnetic film, provided between the recording magnetic film and the readout magnetic film, for controlling the exchange-coupling force. The controlling magnetic film has in-plane magnetic anisotropy at room temperature, thereby suppressing the exchange-coupling force between the recording magnetic film and the readout magnetic film, and when the temperature of the controlling magnetic film reaches a predetermined temperature by a readout light irradiation, the controlling magnetic film stops the suppression of the exchange-coupling force, whereby the information recorded in the recording magnetic film is magnetically transferred to the readout magnetic film.
    • 公开了包括用于记录信息的记录层和用于支撑记录层的基板的磁光记录介质。 记录层包括:用于记录信息的记录磁性膜,记录磁性膜由垂直磁各向异性膜形成; 用于光学读出信息的读出磁膜,读出磁膜能够通过交换耦合力与记录磁性膜磁耦合; 以及设置在记录磁性膜和读出磁性膜之间的用于控制交换耦合力的控制磁性膜。 控制磁性膜在室温下具有面内的磁各向异性,从而抑制记录磁性膜与读出的磁性膜之间的交换耦合力,并且当控制磁性膜的温度通过读出光照射达到预定温度时 控制磁膜阻止了交换耦合力的抑制,由此记录在记录磁膜中的信息被磁性地传送到读出的磁性膜。
    • 9. 发明授权
    • Magneto-optical recording medium for magnetically induced super
resolution
    • 用于磁感应超分辨率的磁光记录介质
    • US5864520A
    • 1999-01-26
    • US886149
    • 1997-06-30
    • Yuichi FukamachiMasahiro Birukawa
    • Yuichi FukamachiMasahiro Birukawa
    • G11B11/10G11B11/105G11B11/00
    • G11B11/10584G11B11/10504G11B11/10586G11B11/10515
    • In a magneto-optical recording medium for super resolution reproduction, a recording layer having a Curie temperature of 300.degree. C. or higher is used. An inhibition force for inhibiting movement of a domain wall in the recording layer is enhanced, while the magnetization is sufficiently increased such that a contraction force, which decreases a surface area of the domain wall, can be decreased. Thus, recording domains become stable during recording and erasing. Further, cross erasing characteristics can be improved, while maintaining previously used recording and erasing powers. The inhibition force becomes larger than the contraction force, even if the Curie temperature is low, when the recording layer is made of a first magnetic material for forming recording domains which have a compensation temperature between 0.degree. and 200.degree. C., or when the compensation temperature of the recording layer is between 0.degree. and 200.degree. C.
    • 在用于超分辨率再现的磁光记录介质中,使用居里温度为300℃或更高的记录层。 增强了抑制记录层中畴壁运动的抑制力,同时磁化强度得到充分提高,从而减小了畴壁表面积减小的收缩力。 因此,记录域在记录和擦除期间变得稳定。 此外,可以提高交叉擦除特性,同时保持先前使用的记录和擦除功率。 抑制力变得比收缩力大,即使居里温度低,当记录层由用于形成补偿温度在0〜200℃之间的记录区域的第一磁性材料制成时,或者当 记录层的补偿温度为0〜200℃。