1
Toshihiko Miyazaki, Hiroyasu Nose, Takayuki Yagi, Toshimitsu Kawase, Katsuhiko Shinjo: Cantilever type probe, scanning tunneling microscope and information processing device equipped with said probe. Canon Kabushiki Kaisha, Fitzpatrick Cella Harper & Scinto, February 16, 1993: US05187367 (68 worldwide citation)

A cantilever type probe comprises a cantilever-shaped displacement element having electrodes for driving which displace two layers of piezoelectric material at the interface and first and second surfaces of the layers, respectively, and each of the electrodes being arranged separately within the sam ...


2
Toshihiko Miyazaki, Hiroyasu Nose, Ryo Kuroda, Toshimitsu Kawase, Katsuhiko Shinjo: Micro-displacement type information detection probe device and scanning tunneling microscope, atomic force microscope, information processing device by use thereof. Canon Kabushiki Kaisha, Fitzpatrick Cella Harper & Scinto, January 4, 1994: US05276672 (57 worldwide citation)

A micro-displacement type information detection probe device capable of following all of the undulation on the .mu.m order, and the periodical surface unevenness on the nm order, of the recording medium or the substrate in performing recording and/or reproduction, by use of, for example, tunnel curr ...


3
Katsuhiko Shinjo, Toshihiko Miyazaki, Ryo Kuroda, Keisuke Yamamoto, Toshimitsu Kawase: Information recording/reproducing apparatus for recording/reproducing information with probes. Canon Kabushiki Kaisha, Fitzpatrick Cella Harper & Scinto, May 2, 1995: US05412641 (48 worldwide citation)

An information recording and/or reproducing apparatus performs at least one of record and reproduction of information on an information record medium with a plurality of probes. The apparatus includes a support plate supporting the plurality of probes and segmented into a plurality of blocks, and a ...


4
Ryo Kuroda, Katsunori Hatanaka, Toshihiko Miyazaki, Takayuki Yagi, Toshimitsu Kawase, Katsuhiko Shinjo: Cantilever unit and atomic force microscope, magnetic force microscope, reproducing apparatus and information processing apparatus using the cantilever unit. Canon Kabushiki Kaisha, Fitzpatrick Cella Harper & Scinto, November 9, 1993: US05260567 (47 worldwide citation)

A cantilever unit comprises a cantilever for supporting a probe and a displacement amount detecting means, the displacement amount detecting means being integrated with the cantilever. An information processing apparatus comprises the cantilever unit and optionally an information recording medium st ...


5
Hideyuki Kawagishi, Haruki Kawada, Kiyoshi Takimoto, Toshimitsu Kawase, Yuko Morikawa, Katsuhiko Shinjo: Information recording and/or reproducing apparatus. Canon Kabushiki Kaisha, Fitzpatrick Cella Harper & Scinto, December 13, 1994: US05373494 (43 worldwide citation)

An information recording and/or reproducing apparatus includes a recording medium having a plurality of segmented planar electrodes, a plurality of probe electrodes respectively facing and electrically connected to the plural planar electrodes, and a circuit for independently applying a voltage for ...


6
Takayuki Yagi, Yutaka Hirai, Osamu Takamatsu, Masaru Nakayama, Hiroyasu Nose, Katsuhiko Shinjo, Yasuhiro Simada: Angular acceleration sensor. Canon Kabushiki Kaisha, Fitzpatrick Cella Harper & Scinto, September 27, 1994: US05349858 (31 worldwide citation)

An angular acceleration sensor has a weight member, a resilient member for supporting the weight member from the both sides thereof, the resilient member being disposed on a predetermined rotational axis and supporting the weight member for rotation about the rotational axis, and an opposed member o ...


7
Hidetoshi Suzuki, Yoshiyuki Osada, Ichiro Nomura, Takeo Ono, Hisaaki Kawade, Eiji Yamaguchi, Toshihiko Takeda, Hiroaki Toshima, Yasuhiro Hamamoto, Tatsuya Iwasaki, Aoji Isono, Noritake Suzuki, Yasuyuki Todokoro, Masahiro Okuda, Katsuhiko Shinjo: Method of manufacturing an electron source. Canon Kabushiki Kaisha, Fitzpatrick Cella Harper & Scinto, January 14, 1997: US05593335 (28 worldwide citation)

A method of manufacturing an electron source having a plurality of surface-conduction electron-emitting devices arranged on a substrate in row and column directions includes the forming of electron emission portions of the plurality of surface-conduction electron-emitting devices. The forming is car ...


8
Tohru Den, Katsuhiko Shinjo, Taiko Motoi, Takehiko Kawasaki, Norio Kaneko: Light detecting device and light detecting method using a superconnector. Canon Kabushiki Kaisha, Fitzpatrick Cella Harper & Scinto, October 13, 1992: US05155093 (23 worldwide citation)

A light detecting device includes a signal input portion which generates a current upon input of a light signal, a signal detecting portion including a superconductor which detects the light signal with injection of the generated current, and electrodes through which the generated current is injecte ...


9
Hiroyasu Nose, Kunihiro Sakai, Toshimitsu Kawase, Toshihiko Miyazaki, Katsuhiko Shinjo, Yutaka Hirai, Takayuki Yagi, Katsunori Hatanaka, Keisuke Yamamoto, Yuki Kasanuki, Yoshio Suzuki: Cantilever type probe, scanning tunnel microscope and information processing apparatus using the same. Canon Kabushiki Kaisha, Fitzpatrick Cella Harper & Scinto, June 14, 1994: US05321685 (21 worldwide citation)

A cantilever type probe comprising a piezoelectric bimorph cantilever containing a piezoelectric material provided between driving electrodes for driving a cantilever, a probe formed thereon and a drawing electrode for a probe provided along the surface where a probe is formed, wherein there is prov ...


10
Shinjiro Okada, Shuzo Kaneko, Yutaka Inaba, Katsuhiko Shinjo, Hirokatsu Miyata, Kazunori Katakura: Liquid crystal display apparatus and drive method. Canon Kabushiki Kaisha, Fitzpatrick Cella Harper & Scinto, January 7, 1997: US05592190 (19 worldwide citation)

A liquid crystal display device having a matrix of pixels is driven for gradational display with better temperature compensation and better flicker suppression by a driving method, wherein (a) a first voltage signal is applied to a pixel on a selected scanning line, the first voltage signal includin ...