Inventor
SUGITA MITSURO
JP42 patents
⚠️ This page may combine multiple inventors who share the name “SUGITA MITSURO”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
CANON KK
31 patentsUS6930754B1Aug 16, 2005
Multiple exposure method
CANON KK40 citations96
US7171095B2Jan 30, 2007
Optical device and method of manufacturing the same
CANON KK25 citations93
US6946666B2Sep 20, 2005
Position detection device, apparatus using the same, exposure apparatus, and device manufacturing method using the same
CANON KK20 citations93
US6670080B2Dec 30, 2003
Mask pattern creating method and mask pattern creating apparatus
CANON KK46 citations93
US6344892B1Feb 5, 2002
Exposure apparatus and device manufacturing method using same
CANON KK34 citations93
US8384908B2Feb 26, 2013
Image forming method and optical coherence tomograph apparatus using optical coherence tomography
CANON KK31 citations92
US7954947B2Jun 7, 2011
Image acquisition apparatus and image acquisition method using optical coherence tomography
CANON KK29 citations92
US6534242B2Mar 18, 2003
Multiple exposure device formation
CANON KK41 citations92
US6252662B1Jun 26, 2001
Projection exposure apparatus and device manufacturing method using the same
CANON KK21 citations92
US6061153AMay 9, 2000
Image processing apparatus and method
CANON KK35 citations92
US7954948B2Jun 7, 2011
Optical tomographic imaging method and apparatus
CANON KK12 citations84
US7933004B2Apr 26, 2011
Method of acquiring information with a microcavity laser
CANON KK7 citations84
US7731902B2Jun 8, 2010
Photonic crystal and waveguide sensor device
CANON KK13 citations84
US7659987B2Feb 9, 2010
Device and method for acquiring information on objective substance to be detected by detecting a change of wavelength characteristics on the optical transmittance
CANON KK8 citations84
US7391945B2Jun 24, 2008
Sensor device
CANON KK11 citations84
US7231123B2Jun 12, 2007
Photonic crystal optical element and manufacturing method therefor
CANON KK17 citations84
US6816233B2Nov 9, 2004
Mask having pattern areas whose transmission factors are different from each other
CANON KK14 citations84
US7430039B2Sep 30, 2008
Sensor
CANON KK6 citations74
US7272290B2Sep 18, 2007
Method for fabrication of optical element, and optical element having three-dimensional laminated structure
CANON KK7 citations74
US7023522B2Apr 4, 2006
Multiple exposure method
CANON KK7 citations74
US6839890B2Jan 4, 2005
Mask manufacturing method
CANON KK9 citations74
US6632574B1Oct 14, 2003
Mask having pattern areas whose transmission factors are different from each other
CANON KK5 citations74
US6437852B1Aug 20, 2002
Exposure system
CANON KK8 citations74
US5915076AJun 22, 1999
Image processing apparatus and method
CANON KK12 citations74
US9279660B2Mar 8, 2016
Method and apparatus for processing polarization data of polarization sensitive optical coherence tomography
CANON KK5 citations68
US6806477B1Oct 19, 2004
Position detection device, apparatus using the same, exposure apparatus, and device manufacturing method using the same
CANON KK6 citations63
US6377337B1Apr 23, 2002
Projection exposure apparatus
CANON KK6 citations63
US7944564B2May 17, 2011
Device and method for acquiring information on objective substance to be detected by detecting a change of wavelength characteristics on the optical transmittance
CANON KK2 citations62
US7505112B2Mar 17, 2009
Multiple exposure method
CANON KK0 citations52
US8035668B2Oct 11, 2011
Exposure apparatus and device manufacturing method
CANON KK1 citations51
US7799277B2Sep 21, 2010
Detection device and detection method
CANON KK0 citations42
SUGITA MITSURO
4 patentsUS8204300B2Jun 19, 2012
Image forming method and optical coherence tomograph apparatus using optical coherence tomography
SUGITA MITSURO32 citations92
US8749795B2Jun 10, 2014
Optical tomographic imaging apparatus
SUGITA MITSURO5 citations83
US8274660B2Sep 25, 2012
Optical tomographic imaging apparatus
SUGITA MITSURO9 citations83
US8226233B2Jul 24, 2012
Image acquisition apparatus and image acquisition method using optical coherence tomography
SUGITA MITSURO3 citations62