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    • 5. 发明授权
    • Holographic recording and reconstructing apparatus and method
    • 全息记录和重建装置及方法
    • US07502151B2
    • 2009-03-10
    • US11388473
    • 2006-03-24
    • Mitsuru ToishiTomiji TanakaMikio Sugiki
    • Mitsuru ToishiTomiji TanakaMikio Sugiki
    • G03H1/02
    • G11B7/0065G11B7/00781G11B7/126
    • A holographic recording and reconstructing apparatus includes a light source having a variable oscillation wavelength; a temperature sensing unit operable to sense temperature; and a control unit operable to record information about a temperature sensed by the temperature sensing unit on a holographic recording medium during recording, to obtain the information about the temperature from the holographic recording medium and obtain a temperature sensed by the temperature sensing unit during reconstruction, to determine the amount of wavelength shift to counteract the effects of a change in the dimension of the holographic recording medium between recording and reconstruction based on the difference between the temperatures, and to shift the oscillation wavelength of the light source by the determined amount.
    • 全息记录和重建装置包括具有可变振荡波长的光源; 温度检测单元,其可操作以感测温度; 以及控制单元,其可操作以在记录期间在全息记录介质上记录关于由温度感测单元感测的温度的信息,以获得关于来自全息记录介质的温度的信息,并获得在重建期间由温度感测单元感测的温度, 确定波长偏移的量,以抵消在记录和重构之间的全息记录介质的尺寸变化的影响,基于温度之间的差异,并且将光源的振荡波长移动所确定的量。
    • 7. 发明授权
    • External cavity type semiconductor laser
    • 外腔型半导体激光器
    • US07729400B2
    • 2010-06-01
    • US10579903
    • 2004-11-30
    • Tomiji TanakaKazuo TakahashiMotonobu Takeya
    • Tomiji TanakaKazuo TakahashiMotonobu Takeya
    • H01S5/18H01S5/16
    • H01S5/141H01S5/02212H01S5/02248H01S5/02296H01S5/02415H01S5/02438H01S5/0655H01S5/2219H01S5/32341
    • An external cavity type semiconductor laser that has a larger output and a more excellent single mode characteristic than a conventional external cavity type semiconductor laser is provided. The external cavity type semiconductor laser has a laser diode 11, a window glass 16, a grating, and a lens. The external cavity type semiconductor laser has several modifications over the conventional one. A first modification is that the window glass 16 is inclined to a beam emission surface 19 of a laser diode 11 for a predetermined angle. A second modification is that arrangements of the laser diode 11 and so forth are adjusted so that a S wave reaches the grating. A third modification is that when an output power of the laser diode 11 is 45 mW or less, a kink is suppressed. The other modifications are that a reflectance of a beam emission surface of the laser diode 11, a numerical aperture of the lens, an external cavity length, and a reflectance of a first order beam of the grating are optimized to their proper values.
    • 提供具有比常规的外腔型半导体激光器更大的输出和更优异的单模特性的外腔型半导体激光器。 外腔型半导体激光器具有激光二极管11,窗玻璃16,光栅和透镜。 外腔型半导体激光器与常规半导体激光器相比有若干种修改。 第一修改是窗玻璃16以预定角度倾斜于激光二极管11的光束发射表面19。 第二修改是调整激光二极管11等的配置,使得S波到达光栅。 第三变形例是当激光二极管11的输出功率为45mW以下时,抑制了扭结。 其他修改是将激光二极管11的光束发射表面的反射率,透镜的数值孔径,外部空腔长度和光栅的一阶光束的反射率优化为其适当的值。
    • 8. 发明申请
    • External cavity type semiconductor laser
    • 外腔型半导体激光器
    • US20070064755A1
    • 2007-03-22
    • US10579903
    • 2004-11-30
    • Tomiji TanakaKazuo TakahashiMotonobu Takeya
    • Tomiji TanakaKazuo TakahashiMotonobu Takeya
    • H01S5/00
    • H01S5/141H01S5/02212H01S5/02248H01S5/02296H01S5/02415H01S5/02438H01S5/0655H01S5/2219H01S5/32341
    • An external cavity type semiconductor laser that has a larger output and a more excellent single mode characteristic than a conventional external cavity type semiconductor laser is provided. The external cavity type semiconductor laser has a laser diode 11, a window glass 16, a grating, and a lens. The external cavity type semiconductor laser has several modifications over the conventional one. A first modification is in that the window glass 16 is inclined to a beam emission surface 19 of a laser diode 11 for a predetermined angle. A second modification is in that arrangements of the laser diode 11 and so forth are adjusted so that an S wave reaches the grating. A third modification is in that when an output power of the laser diode 11 is 45 mW or less, a kink is suppressed. The other modifications are in that a reflectance of a beam emission surface of the laser diode 11, a numerical aperture of the lens, an external cavity length, and a reflectance of a first order beam of the grating are optimized to their proper values.
    • 提供具有比常规的外腔型半导体激光器更大的输出和更优异的单模特性的外腔型半导体激光器。 外腔型半导体激光器具有激光二极管11,窗玻璃16,光栅和透镜。 外腔型半导体激光器与常规半导体激光器相比有若干种修改。 第一修改是,窗玻璃16以预定角度倾斜到激光二极管11的光束发射表面19。 第二修改是调整激光二极管11等的布置,使得S波到达光栅。 第三变形例是当激光二极管11的输出功率为45mW以下时,抑制了扭结。 其他修改在于激光二极管11的光束发射表面的反射率,透镜的数值孔径,外部空腔长度和光栅的一阶光束的反射率被优化为其适当的值。
    • 9. 发明申请
    • RECORDING APPARATUS AND RECORDING METHOD
    • 记录装置和记录方法
    • US20090316239A1
    • 2009-12-24
    • US12475098
    • 2009-05-29
    • Hitoshi OKADAMasaaki HaraSatoru SekoTomiji TanakaYoshiki Okamoto
    • Hitoshi OKADAMasaaki HaraSatoru SekoTomiji TanakaYoshiki Okamoto
    • G03H1/08
    • G11B7/00781G11B7/0065
    • A recording apparatus includes a drive unit that rotationally drives a holographic recording medium including a recording layer and a track forming layer that includes guide tracks formed at constant intervals in a radial direction, where a signal beam and a reference beam are emitted to the recording layer so that a hologram is recorded in accordance with the signal beam, a signal beam generating unit, a reference beam generating unit, a recording unit that emits the signal beam and reference beam into the medium and records the hologram, a rotation control unit that controls the drive unit so that the medium is rotationally driven at a constant rotation speed, and a recording control unit that selects some of the guide tracks so that radial-direction recording intervals of the holograms are statistically decreased towards the outer periphery and controls the recording unit to record the holograms along the selected tracks.
    • 记录装置包括:驱动单元,其旋转地驱动包括记录层的全息记录介质和轨道形成层,该轨道形成层包括沿径向恒定间隔形成的导轨,其中信号光束和参考光束被发射到记录层 使得根据信号束记录全息图,信号光束产生单元,参考光束产生单元,将信号光束和参考光束发射到介质中并记录全息图的记录单元,控制旋转控制单元 所述驱动单元使得所述介质以恒定的旋转速度被旋转地驱动;以及记录控制单元,其选择一些所述导轨,使得所述全息图的径向记录间隔向外周界统计地减小,并且控制所述记录单元 沿所选轨道记录全息图。