Patent application number | Description | Published |
20100081561 | OPTICAL MATERIAL AND OPTICAL ELEMENT - Provided is an optical element, which is formed by vacuum-sintering a molded body of ceramic particles having an average particle diameter of 1 μm or more and 10 μm or less and including Ln | 04-01-2010 |
20100097584 | EXPOSURE APPARATUS AND DEVICE FABRICATION METHOD - An exposure apparatus which exposes a substrate via a liquid supplied between a projection optical system and the substrate, the apparatus comprises a gas supply-recovery mechanism configured to blow a gas around the liquid, wherein the gas supply-recovery mechanism includes a nozzle unit in which a supply port configured to supply the gas, and a recovery port which is arranged nearer to an optical axis of the projection optical system than the supply port and is configured to recover the gas are formed, and wherein the nozzle unit is configured such that a first portion which is adjacent to the supply port and is nearer to the optical axis than the supply port is closer to an image plane of the projection optical system than a second portion which is adjacent to the supply port and is farther from the optical axis than the supply port. | 04-22-2010 |
20100141911 | EXPOSURE APPARATUS AND DEVICE MANUFACTURING METHOD - An exposure apparatus, exposing a substrate via liquid so as to transfer a pattern of a mask onto the substrate, includes a stage configured to move while holding the substrate. The stage includes a substrate supporting portion on which the substrate is disposed, a supporting surface disposed outside the substrate supporting portion configured to support the liquid together with the substrate, and a frame portion formed so as to surround the supporting surface. The frame portion includes a depression and a member whose top surface is located in a plane including the supporting surface. | 06-10-2010 |
20110177323 | OPTICAL MATERIAL AND OPTICAL ELEMENT - Provided is an optical element, which is formed by vacuum-sintering a molded body of ceramic particles having an average particle diameter of 1 μm or more and 10 μm or less and including Ln | 07-21-2011 |
20120126437 | OPTICAL MATERIAL AND OPTICAL ELEMENT - An optical element is formed by vacuum-sintering a molded body of ceramic particles having an average particle diameter of 1 μm or more and 10 μm or less and including Ln | 05-24-2012 |
Patent application number | Description | Published |
20090082626 | ENDOSCOPE AND ENDOSCOPE SYSTEM - An endoscope has an insertion portion, an abutment portion, an increasing device and an observation portion. The insertion portion is an insertion portion which can be inserted into a subject. The abutment portion is provided at a distal end portion of the insertion portion. The abutment portion provided at the distal end portion can contact with the subject. The increasing device increases the abutment area of the abutment portion. The observation portion performs observation of the subject on the abutment portion provided at the distal end portion and having been increased by the increasing device, or performs observation of the subject spaced by a predetermined distance by the increased abutment portion. | 03-26-2009 |
20090088601 | ENDOSCOPE AND ENDOSCOPY METHOD - An endoscope has an insertion portion, a contact portion, an observation portion and a marking portion. The insertion portion can be inserted into a body cavity. The contact portion is provided at a distal end portion of the insertion portion. The contact portion provided at the distal end portion can be in contact with a subject. The observation portion is provided at the contact portion. The marking portion is provided at the contact portion. The marking portion applies a marker to the subject with which the contact portion is in contact. | 04-02-2009 |
20100073731 | IMAGE GENERATING APPARATUS - An image generating apparatus according to the present invention includes: a first light source unit that emits light in a first wavelength band to a subject; a second light source unit that emits light in a second wavelength band, which is a part of the first wavelength band, to the subject; an image pickup unit that picks up an image of the subject and outputs the image as an image pickup signal; a light cut filter unit that cuts light in the second wavelength band reflected from the subject; and a complementary processing unit that applies complementary processing to a component equivalent to the second wavelength band cut by the light cut filter unit in the image of the subject picked up by the image pickup unit in a state in which the subject is illuminated by the light in the first wavelength band. | 03-25-2010 |
20100137682 | ENDOSCOPE - There is provided an endoscope capable of observing cells at a desired position existing in the depth direction with a simple structure as compared to the conventional configuration. The endoscope includes an insert unit to be inserted into a biological body, a low-scaling observation system for observing an observation position in a biological body with a low scaling, and a high-scaling observation system for observing a target position of the aforementioned observation position as a local position with a high scaling. The high-scaling observation system includes a plurality of illumination units for applying illumination light for high-scaling observation of the target position. The illumination units are arranged at predetermined positions of the end face of the insert unit. | 06-03-2010 |
20110157340 | FLUORESCENT IMAGE APPARATUS AND METHOD FOR ACQUIRING FLUORESCENT IMAGE - A fluorescent imaging device includes an irradiation section that irradiates an object to be examined with excitation light and reference light, an image pickup section that picks up a fluorescence image based on the excitation light and a reflected light image based on the reference light, a comparison section that compares relative intensity between the fluorescent image generated from the fluorescence image and the reflected light image generated from the reflected light image, and a selection section that selectively outputs one of the reflected light image and the fluorescent image based on the comparison result. | 06-30-2011 |
20110267458 | FLUORESCENCE OBSERVATION DEVICE - A fluorescence observation apparatus according to the present invention includes a light source section that can emit a plurality of excitation light beams for exciting a plurality of fluorescent substances and a reference light, an image pickup section that picks up images of a plurality of fluorescent light beams emitted by emitting the plurality of excitation light beams to the plurality of fluorescent substances and reflected light of the reference light, an image generation section that generates an image signal corresponding to the plurality of fluorescent light beams and the reflected light of the reference light whose images are picked up by the image pickup section, a brightness detection section that detects brightness of a plurality of image signals corresponding to the plurality of fluorescent light beams and brightness of an image signal corresponding to the reflected light of the reference light, sets an upper limit value and a lower limit value of brightness using brightness of the image signal corresponding to the reflected light of the reference light as a reference and detects whether or not the brightness of the plurality of image signals corresponding to the plurality of fluorescent light beams falls within a range between the upper limit value and the lower limit value, and a brightness adjusting section that adjusts brightness of each image signal outside the range out of the plurality of image signals corresponding to the plurality of fluorescent light beams so as to fall within the range based on a detection result by the brightness detection section. | 11-03-2011 |
20110267493 | FLUORESCENCE OBSERVATION APPARATUS - A fluorescence observation apparatus of the present invention includes a light source section that can emit a plurality of excitation light beams for exciting a plurality of fluorescent substances and a reference light, an image pickup section that picks up images of a plurality of fluorescent light beams emitted by emitting the plurality of excitation light beams to the plurality of fluorescent substances and reflected light of the reference light, an image generation section that generates image signals corresponding to the plurality of fluorescent light beams and the reflected light of the reference light whose images have been picked up by the image pickup section, and an image processing section that assigns a plurality of fluorescent light images related to image signals corresponding to the plurality of fluorescent light beams and a reference light image related to an image signal corresponding to the reflected light of the reference light to a plurality of color channels respectively and outputs the resulting image as a synthesized image, wherein the image generation section generates an image signal in which the one fluorescent light image and the synthesized image are arranged side by side on a same screen, and the image processing section calculates, when a color tone operation is performed on any one of the plurality of image signals generated by the image generation section, a color tone adjustment coefficient for achieving color tone balance with image signals other than the image signal subjected to the color tone operation and performs color tone calculation processing on the image signals to be assigned to the plurality of color channels using the calculated color tone adjustment coefficient. | 11-03-2011 |
20120271128 | MEDICAL APPARATUS - A medical apparatus includes: a storing section in which information concerning a drug kinetics in a living body is stored in advance for each of plural kinds of fluorescent drugs; a processing section that acquires information concerning diagnosis start timing corresponding to a desired fluorescent drug based on information stored in the storing section, information concerning a target region to which the desired fluorescent drug is administered, information concerning a method of administering the desired fluorescent drug to the target region, and information indicating start of the administration of the desired fluorescent drug; and a light source control section that controls radiation of excitation light for exciting the desired fluorescent drug to a stop state until the diagnosis start timing is reached and controls, at and after the diagnosis start timing, the radiation of the excitation light to a state in which the excitation light can be radiated. | 10-25-2012 |
20130096376 | ENDOSCOPE APPARATUS AND METHOD FOR CONTROLLING FLUORESCENCE IMAGING APPARATUS - An endoscope apparatus includes: a light source portion that irradiates an excitation light and a reference light alternately; an image pickup portion that picks up images of the fluorescence from the living tissue and the reflected light; a signal processing portion that generates image signals from picked up signals; an addition processing portion that generates, from image signals of fluorescence, addition processed signals of fluorescence in which pixels are added; a light quantity control portion that controls the quantity of light so as to maintain a predetermined light quantity ratio between the quantities of the excitation light and the reference light from the addition processed signals of fluorescence and image signals of the reflected light; and a superimposition processing portion that superimposes the addition processed signals and the image signals of the reflected light, with the predetermined light quantity ratio being maintained. | 04-18-2013 |
20130150728 | MEDICAL APPARATUS - A medical apparatus has a light source section capable of irradiating an excitation light and a reference light alternately, an image pickup section that picks up images of fluorescence by the excitation light, and reflected light of the reference light, a pixel addition processing section that performs pixel addition processing of making a plurality of pixels in a first image as a fluorescence image one pixel, and generates a second image, an adjusting section that makes adjustment so that a brightness ratio of the second image and a reference light image obtained by picking up of the image of the reflected light has a constant value, and thereby generates a third image signal and a fourth image, an interpolation processing section that applies interpolation processing to the third image, and generates a fifth image, and an image processing section that performs image synthesis of the fifth image and the fourth image. | 06-13-2013 |
20130155215 | Scanning Endoscope Device - Scanning endoscope device including a light source unit that repeatedly emits a plurality of illumination beams in different wavelength bands in a certain order with a predetermined repetition period; a light guiding section that has an emission surface; a driving section that oscillates the emission surface in two axial directions in a reciprocating manner to two-dimensionally scan the illumination beams; a controller that controls the source unit and/or the driving section so that an oscillation period and a oscillation amplitude of the emission surface are proportional to the period of the illumination beams, and that controls the driving section so that the oscillation period periodically and gradually changes and the oscillation period is proportional to the oscillation amplitude; a light detecting section that detects return beams; and an image generating section that generates images of the return beams in synchronization with the predetermined period of the source. | 06-20-2013 |
20140267657 | ENDOSCOPE APPARATUS - An endoscope apparatus includes: an image pickup portion that, with respect to return light including a plurality of wavelength band components that is generated accompanying irradiation of illuminating light onto an object, receives the return light with a plurality of different spectral sensitivities and generates an image pickup signal for each of the spectral sensitivities; a correction portion that, based on a spectral distribution of the return light and spectral sensitivity characteristics of the image pickup portion, sets a correction coefficient so that spectral distributions for each of the plurality of wavelength band components included in the image pickup signals become a similar shape to each other; and a calculation portion that, based on the correction coefficient, performs a calculation that separates image pickup signals into each wavelength band component among the plurality of wavelength band components included in the return light. | 09-18-2014 |