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    • 4. 发明授权
    • Scanning near-field optic/atomic-force microscope with observing
function in liquid
    • 用液体观察功能扫描近场光学/原子力显微镜
    • US5821409A
    • 1998-10-13
    • US525348
    • 1995-09-07
    • Katsunori HonmaHiroshi MuramatsuNorio Chiba
    • Katsunori HonmaHiroshi MuramatsuNorio Chiba
    • G01B21/30G01B7/34G01B11/30G01N37/00G01Q30/12G01Q30/14G01Q30/20G01Q60/06G01Q60/18G01Q60/24G01Q60/32G01Q80/00G02B21/00H01J37/28G01B5/28H01J3/14
    • G01Q20/02B82Y20/00B82Y35/00G01Q30/14G01Q60/06G01Q60/22Y10S977/862
    • A scanning near-field optic/atomic-force microscope comprises a holder for holding a sample immersed in a liquid, and a plate disposed over the holder for covering a surface of the liquid and for transmitting therethrough a laser light. A probe has an optical propagation body terminating in a distal end, and a light reflecting element disposed thereon, and the probe is immersed in the liquid. A light source emits a light which is introduced into the optical propagation body of the probe, which guides the light through the probe and out the distal end thereof to irradiate the sample. A detecting device detects information from the light irradiated on the sample and converts the information to an electric signal. A laser source irradiates the light reflecting element of the probe with a laser light for detecting a bending amount of the probe resulting from an interaction between the sample and the probe. An angle adjusting mechanism adjusts an optical axis of the laser light transmitted through the plate. A photoelectric conversion device receives the laser light reflected from the light reflecting element and converts the reflected light into an electric signal. A moving mechanism moves the sample relative to the probe, and a distance control device controls a distance between the surface of the sample and the distal end of the probe.
    • 扫描近场光学/原子力显微镜包括用于保持浸没在液体中的样品的保持器和设置在保持器上的用于覆盖液体表面并用于透射激光的板。 探针具有终端的光传播体,设置在其上的光反射元件,探针浸入液体中。 光源发射被引入到探针的光传播体中的光,该光引导光穿过探针并从其远端引出照射样品。 检测装置从照射在样本上的光检测信息,并将该信息转换为电信号。 激光源用激光照射探针的光反射元件,用于检测由样品和探针之间的相互作用产生的探针的弯曲量。 角度调节机构调节透过板的激光的光轴。 光电转换装置接收从光反射元件反射的激光,并将反射光转换为电信号。 移动机构使样本相对于探针移动,并且距离控制装置控制样品表面与探针的远端之间的距离。
    • 8. 发明授权
    • Optical memory medium
    • 光存储介质
    • US5654131A
    • 1997-08-05
    • US595097
    • 1996-02-01
    • Masamichi FujihiraHiroshi MuramatsuNorio ChibaTatsuaki Ataka
    • Masamichi FujihiraHiroshi MuramatsuNorio ChibaTatsuaki Ataka
    • G01Q20/02G01Q20/04G01Q60/26G11B7/12G11B7/135G11B7/244G11B7/253G11B9/00G11B11/00G11B7/24
    • G11B7/12B82Y10/00G11B11/007G11B7/1384G11B7/244G11B7/2531G11B9/1463G01Q80/00Y10S430/146Y10S430/163
    • There is provided an optical memory medium comprising a flat plate modified on the surface thereof by a photolytic residual group, an optical recording apparatus comprising an optical probe having a microscopic aperture on the leading end thereof, a light source, X-Y-Z position control means, and a controller for controlling the apparatus as whole and an apparatus for reading the optical memory medium comprising the optical memory medium, a friction detecting probe, an X-Y-Z position control means and a controller for controlling the apparatus as a whole. Further, information is written and read with high density less than the wavelength of light using an apparatus for writing to and reading from an optical memory piezoelectric medium comprising the optical memory piezoelectric medium constituted by a piezoelectric element modified on the surface thereof by a photolytic residual group, an optical probe having a microscopic aperture on the leading end thereof, a light source, an X-Y-Z position control means, a means for measuring the resonance characteristics of the piezoelectric element and a controller for controlling the apparatus as a whole.
    • 提供了一种光学存储介质,其包括通过光解残留组在其表面上改性的平板,光学记录装置,包括在其前端具有微小孔的光学探针,光源,XYZ位置控制装置和 用于整体控制装置的控制器和用于读取包括光学存储介质的光学存储介质的装置,摩擦检测探针,XYZ位置控制装置和用于整体控制装置的控制器。 此外,使用用于写入和读取由光学存储器压电介质构成的光学存储器压电介质的装置,以比光的波长高的密度来写入和读取信息,该光存储器压电介质由其表面上由光解残留物修饰的压电元件构成 组,在其前端具有微小孔的光学探针,光源,XYZ位置控制装置,用于测量压电元件的谐振特性的装置和用于整体控制装置的控制器。
    • 10. 发明授权
    • Scanning near-field optic/atomic force microscope
    • 扫描近场光学/原子力显微镜
    • US06229609B1
    • 2001-05-08
    • US08225756
    • 1994-04-11
    • Hiroshi MuramatsuTatsuaki AtakaMasamichi FujihiraNorio Chiba
    • Hiroshi MuramatsuTatsuaki AtakaMasamichi FujihiraNorio Chiba
    • G01B1124
    • G01Q30/02G01Q60/06G01Q60/22G01Q60/38G01Q70/02G02B6/241Y10S977/862Y10S977/863Y10S977/871Y10S977/951
    • An apparatus capable of measuring the topography and the optical characteristics of the surface of a sample at high resolution irrespective of the transmittance and the conductivity of the sample is realized. The apparatus comprises a probe, a light source for illuminating a sample with light, a photoelectric converter device and optics for receiving light transmitted through the sample or light reflected by the sample, a laser emitting laser light for detecting deflections of the probe, a condenser lens for directing the laser light to the rear surface of the probe, a detection system for detecting reflected light, a rough-motion mechanism and a fine-motion mechanism for moving the sample and the probe relative to each other, a control means for controlling the distance between the sample and the probe, and a computer for controlling the whole apparatus. The probe has a front end portion and a light-propagating body continuous with the front end portion. The front end portion and the light-propagating body are shaped like a hook. The apparatus observes the topography and the optical characteristics of the surface of the sample.
    • 实现了能够以高分辨率测量样品的表面的形貌和光学特性的装置,而与样品的透射率和导电性无关。 该装置包括探针,用光照射样品的光源,光电转换器装置和用于接收通过样品透射的光或由样品反射的光的光学器件,用于检测探针偏转的激光发射激光,冷凝器 用于将激光引导到探针的后表面的透镜,用于检测反射光的检测系统,用于使样品和探针相对于彼此移动的粗动作机构和细微运动机构;控制装置, 样品与探针之间的距离,以及用于控制整个装置的计算机。 探针具有与前端部连续的前端部和光传播体。 前端部分和光传播体形状如钩。 该装置观察样品表面的形貌和光学特性。