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    • 81. 发明申请
    • INFORMATION RECORDING AND REPRODUCING DEVICE
    • 信息记录和复制设备
    • US20100118684A1
    • 2010-05-13
    • US12593439
    • 2008-03-13
    • Kunihiko HorikawaEiji MuramatsuKazutoshi KitanoAtsushi YamaguchiMasahiro MiuraKazuo Kuroda
    • Kunihiko HorikawaEiji MuramatsuKazutoshi KitanoAtsushi YamaguchiMasahiro MiuraKazuo Kuroda
    • G11B7/135
    • G11B7/0908G11B7/1353G11B7/1374G11B7/1387G11B2007/13727
    • An information recording and reproducing device diffracts by a diffracting means (14) to make laser light separated into a main beam and a sub-beam, irradiates evanescent light in relation to the main beam, by an evanescent light generating means (21), to a track where a recording pit provided on a recording surface of a recording medium is formed and also irradiates evanescent light in relation to the sub-beam to be separated to a track where no recording pit provided on the recording surface of the recording medium is formed. A moving means (210) moves the evanescent light generating means to a direction to change a gap with the recording surface. Further, a judging means (40) judges an uneven state of the recording pit formed on the recording medium, a signal generating means (3161) generates a gap error signal from a signal indicative of a return light amount in relation to the sub-beam or the main beam in accordance with the result, a control means (315) controls the moving means in accordance with a gap error signal so as to make the gap become a target value in response to the uneven state to be judged.
    • 信息记录和再现装置通过衍射装置(14)衍射,以使分离成主光束和子光束的激光相对于主光束相对于主光束照射消逝光,由ev逝光发生装置(21),以 形成记录介质的记录表面上的记录凹坑的轨道,并且还将相对于要分离的子光束的ev逝光照射到不形成记录介质的记录表面上的记录凹坑的轨道 。 移动装置(210)将瞬逝光发生装置移动到与记录表面改变间隙的方向。 此外,判断装置(40)判断在记录介质上形成的记录凹坑的不均匀状态,信号产生装置(3161)从表示相对于子光束的返回光量的信号产生间隙误差信号 或主光束,根据结果,控制装置(315)根据间隙误差信号控制移动装置,以使得间隙响应于待判断的不均匀状态而变为目标值。
    • 88. 发明授权
    • Magnetic head for perpendicular magnetic recording
    • 用于垂直磁记录的磁头
    • US07312951B2
    • 2007-12-25
    • US11038390
    • 2005-01-21
    • Kei HirataKiyoshi NoguchiTetsuya RoppongiAtsushi Yamaguchi
    • Kei HirataKiyoshi NoguchiTetsuya RoppongiAtsushi Yamaguchi
    • G11B5/127G11B5/147G11B5/133G11B5/33
    • G11B5/1278Y10T428/115Y10T428/1186
    • The invention provides a magnetic head for perpendicular magnetic recording having an air bearing surface positioned facing the recording surface of a recording medium, which records magnetic information on the recording medium by generating magnetic flux toward the recording surface of the recording medium, and comprises a magnetic pole which generates magnetic flux toward the recording surface of the recording medium and a return yoke having one end connected to the magnetic pole and the other end positioned facing the recording surface of the recording medium, wherein the material composing the magnetic pole has a magnetostriction constant λ of at least 0 and less than 10×10−6, with a parameter P represented by the formula: P=Hk/(λ×σ) (where Hk represents the magnetic anisotropic field (A/m), σ represents the stress (MPa) and λ represents the magnetostriction constant) of larger than 0.1 and less than 200.
    • 本发明提供了一种用于垂直磁记录的磁头,其具有面向记录介质的记录表面的空气轴承表面,其通过向记录介质的记录表面产生磁通量而将磁信息记录在记录介质上,并且包括磁 向记录介质的记录表面产生磁通的磁极和一个与磁极相连的一端的返回磁轭和面对记录介质的记录表面的另一端,其中构成磁极的材料具有磁致伸缩常数 λ至少为0且小于10×10 -6,具有由以下公式表示的参数P:P = Hk /(lambdaxsigma)(其中Hk表示磁各向异性场(A / m),σ 表示应力(MPa),λ表示磁致伸缩常数)大于0.1且小于200。
    • 89. 发明申请
    • Detection device
    • 检测装置
    • US20060215148A1
    • 2006-09-28
    • US11377449
    • 2006-03-17
    • Atsushi YamaguchiShinji KobayashiMasato YamadaShuichi Ichiura
    • Atsushi YamaguchiShinji KobayashiMasato YamadaShuichi Ichiura
    • G01C3/08G01P3/36
    • G01S17/936G01C3/08G01S17/46
    • A scan trajectory of a laser beam is controlled based on external signals each related to a driving direction and a driving speed, a result obtained by detection of an obstacle, and signals related to distances to the obstacle. For example, at the time of a right turn, a scan trajectory for increasing scan frequency on a portion shifted in a right-turn direction from a center axis in a driving direction is set. At the time of high-speed driving, a scan trajectory for increasing scan frequency on a center portion in the driving direction is set. When the obstacle is detected at a position corresponding to a distance shorter than a threshold distance, a scan trajectory for increasing scan frequency in the vicinity of the obstacle is set. Detection of the obstacle and monitoring of a state thereof are adequately and smoothly performed at the time of changing of the driving direction, the time of high-speed driving, and the time of detection of the obstacle.
    • 基于与驱动方向和驱动速度相关的外部信号,通过检测障碍物获得的结果以及与障碍物的距离相关的信号来控制激光束的扫描轨迹。 例如,在右转时,设定用于增加扫描频率的扫描轨迹,该扫描轨迹用于沿着驱动方向从中心轴沿右转方向移动的部分增加扫描频率。 在高速驱动时,设定用于增加驱动方向上的中心部分的扫描频率的扫描轨迹。 当在对应于比阈值距离短的距离的位置处检测到障碍物时,设置用于增加障碍物附近的扫描频率的扫描轨迹。 在改变行驶方向,高速行驶时间和障碍物的检测时间时,对障碍物的检测和状态的监视充分而平稳地进行。