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    • 2. 发明授权
    • Phase interference microscope
    • 相位干涉显微镜
    • US6020965A
    • 2000-02-01
    • US35609
    • 1998-03-05
    • Tomio Endo
    • Tomio Endo
    • G02B21/00G01B11/02G01B11/30G02B21/06G02B21/14G01B9/02
    • G01B11/026G01B11/303
    • A phase interference microscope, comprising a light source for emitting coherent light with a constant wavelength, an interference optical system for splitting the light emitted from the light source into two light beams, irradiating one of the split light beams onto a sample and the other split light beam onto a reference mirror, and making the light beam reflected from the sample interfere with the light beam reflected from the reference mirror, a focusing device for recognizing a position of a middle point in a phase anomaly of interference light generated in the vicinity of a focusing point as a focusing point for the sample, and moving the sample to the focusing position, and a size measurement device for measuring a size of the sample on the basis of the interference light.
    • 一种相位干涉显微镜,包括用于发射恒定波长的相干光的光源,用于将从光源发射的光分成两束光的干涉光学系统,将分离光束中的一个照射到样本上,而另一个分裂 使得从样本反射的光束与从参考反射镜反射的光束干涉的聚焦装置,用于识别在相邻反射镜附近产生的干涉光的相位异常中的中点的位置的聚焦装置, 聚焦点作为样品的聚焦点,并将样品移动到聚焦位置;以及尺寸测量装置,用于根据干涉光测量样品的尺寸。
    • 5. 发明授权
    • Confocal microscope
    • 共焦显微镜
    • US06426835B1
    • 2002-07-30
    • US09532818
    • 2000-03-21
    • Tomio EndoYukio EdaKatsuya Sadamori
    • Tomio EndoYukio EdaKatsuya Sadamori
    • G02B2106
    • G02B21/0044G02B21/008
    • In a confocal microscope, a beam of light from a light source is lead to a rotary disk by way of an optical lens and a half mirror, and made to strike specimen by way of an objective lens. The rotary disk has random pin hole pattern sections where pin holes are randomly bored through a light blocking mask, and an aperture section having an area k2 times greater than the area of the random pin hole pattern sections and allowing any light to pass therethrough. The beam of light reflected by the specimen is made to enter a CCD camera by way of the objective lens, the rotary disk, the half mirror and a condenser lens. The CCD camera is adapted to selectively pick up a composite image containing a confocal image component and a non-confocal image component of the specimen obtained through the random pin hole pattern sections and a conventional image of the specimen obtained through the aperture section. Then, a CPU carries out an arithmetic operation of subtracting the conventional image data from the composite image data by means of a difference program to produce a confocal image of the specimen.
    • 在共聚焦显微镜中,来自光源的光束通过光学透镜和半反射镜被引导到旋转盘,并通过物镜进行拍打。 旋转盘具有随机的针孔图案部分,其中针孔通过遮光掩模而随机钻孔,并且具有开口部分,其面积比随机针孔图案部分的面积大k2倍,并允许任何光通过。 由样本反射的光束通过物镜,旋转盘,半反射镜和聚光透镜进入CCD摄像机。 CCD摄像机适于选择性地拾取包含通过随机针孔图案部分获得的样本的共聚焦图像分量和非共焦图像分量的复合图像以及通过孔部分获得的样本的常规图像。 然后,CPU通过差分程序执行从合成图像数据中减去常规图像数据的算术运算,以产生样本的共聚焦图像。
    • 7. 发明授权
    • Confocal microscope
    • 共焦显微镜
    • US06778323B2
    • 2004-08-17
    • US10086152
    • 2002-02-27
    • Tomio EndoYukio EdaKatsuya Sadamori
    • Tomio EndoYukio EdaKatsuya Sadamori
    • G02B2100
    • G02B21/0044G02B21/008
    • In a confocal microscope, a beam of light from a light source is lead to a rotary disk by way of an optical lens and a half mirror, and made to strike specimen by way of an objective lens. The rotary disk has random pin hole pattern sections where pin holes are randomly bored through a light blocking mask, and an aperture section having an area k2 times greater than the area of the random pin hole pattern sections and allowing any light to pass therethrough. The beam of light reflected by the specimen is made to enter a CCD camera by way of the objective lens, the rotary disk, the half mirror and a condenser lens. The CCD camera is adapted to selectively pick up a composite image containing a confocal image component and a non-confocal image component of the specimen obtained through the random pin hole pattern sections and a conventional image of the specimen obtained through the aperture section. Then, a CPU carries out an arithmetic operation of subtracting the conventional image data from the composite image data by means of a difference program to produce a confocal image of the specimen.
    • 在共聚焦显微镜中,来自光源的光束通过光学透镜和半反射镜被引导到旋转盘,并通过物镜进行拍打。 旋转盘具有随机的针孔图案部分,其中针孔通过遮光掩模而被随机地钻孔,孔径部分具有比随机针孔图案部分的面积大k倍的面积,并允许任何光通过 通过。 由样本反射的光束通过物镜,旋转盘,半反射镜和聚光透镜进入CCD摄像机。 CCD摄像机适于选择性地拾取包含通过随机针孔图案部分获得的样本的共聚焦图像分量和非共焦图像分量的复合图像以及通过孔部分获得的样本的常规图像。 然后,CPU通过差分程序执行从合成图像数据中减去常规图像数据的算术运算,以产生样本的共聚焦图像。
    • 9. 发明授权
    • Ultrasonic microscope having an automatic focusing adjustment mechanism
    • 超声波显微镜具有自动聚焦调节机构
    • US5553499A
    • 1996-09-10
    • US300064
    • 1994-09-02
    • Nahoko HisataTomio Endo
    • Nahoko HisataTomio Endo
    • G01N29/06G01N29/22G01N29/26G01S7/52G01S15/89G10K11/30G01N29/04
    • G01S7/52033G01N29/06G01N29/22G01S15/8906G01S15/8911G10K11/30
    • Ultrasonic wave converged by an acoustic lens is made incident onto a sample and wave reflected from the sample is received and converted into received electric signal by a transducer. A part of this electric signal is picked up by a gate section and the signal thus picked up is applied to an attenuator where it is converted into a variable ratio of input to output. The strength of the signal thus gain-adjusted is compared with a threshold value by a comparator. Responsive to the comparison result thus obtained, the gain of the attenuator is adjusted to make the input/output ratio of the attenuator a desired value. A computer calculates the focus position of the acoustic lens from a gain curve of the attenuator changing when the acoustic lens is moved from a position, remote enough from its focus position, to the sample. Drivel signal responsive to the result thus calculated is applied to a Z-drive control section. As the result, the distance of the acoustic lens relative to the sample is adjusted to bring the acoustic lens to the focus position.
    • 由声透镜收敛的超声波被入射到样品上,并且从样品反射的波被接收并由换能器转换成接收的电信号。 该电信号的一部分由栅极部分拾取,并且由此拾取的信号被施加到衰减器,在衰减器处被转换成输入到输出的可变比率。 因此通过比较器将由此增益调节的信号的强度与阈值进行比较。 响应于如此获得的比较结果,调节衰减器的增益以使衰减器的输入/输出比达到期望值。 计算机根据衰减器的增益曲线计算声透镜的聚焦位置,当声透镜从远离其对焦位置的位置移动到样本时,该放大曲线改变。 响应于如此计算的结果的驱动信号被施加到Z驱动控制部分。 结果,调节声透镜相对于样品的距离,使声透镜进入聚焦位置。