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公开(公告)号:KR1020120136712A
公开(公告)日:2012-12-20
申请号:KR1020110055819
申请日:2011-06-09
Applicant: 한화테크윈 주식회사
CPC classification number: G01J3/0291 , G01J3/4406 , G01N21/6452 , G01N2021/6484 , G01N2201/0626 , G01N2201/0627 , G01N2201/0846 , C12M1/3446 , C12M1/3476 , G01N33/52
Abstract: PURPOSE: A fluorescence detection device is provided to generate interference between different lights and to ensure excellent detection performance. CONSTITUTION: A fluorescence detection device comprises: a light module(110), a fluorescence selection unit, a telecentric lens, a receiving unit(140), and a housing(150) which covers at least part of other components. The fluorescence detection device is used for determining presence or quantity of a certain target. The target is a nucleic acid. The fluorescence detection device has a sample part containing the sample. The sample part comprises 96 sample chambers.
Abstract translation: 目的:提供荧光检测装置,以产生不同光线之间的干扰,并确保优异的检测性能。 构成:荧光检测装置包括:光模块(110),荧光选择单元,远心透镜,接收单元(140)和覆盖至少一部分其它部件的壳体(150)。 荧光检测装置用于确定特定目标的存在或数量。 靶是核酸。 荧光检测装置具有包含样品的样品部分。 样品部分包含96个样品室。
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92.发明授权
公开(公告)号:KR101107095B1
公开(公告)日:2012-01-30
申请号:KR20100074109
申请日:2010-07-30
Applicant: KOREA HYDRO & NUCLEAR POWER CO , KOREA ATOMIC ENERGY RES
Inventor: PARK YONG JOON , BAE SANG EUN , CHO YOUNG HWAN , SONG KYU SEOK
CPC classification number: G01N21/31 , G01N21/0303 , G01N21/8507 , G01N2021/8528 , G01N2201/0846 , G21C17/06
Abstract: PURPOSE: A device for measuring uranium concentration of high temperature molten salt is provided to maintain an optimum analysis state by controlling a distance between two light transmission tubes according to the concentration density of uranium. CONSTITUTION: A light transmission tube is immersed in molten salt including uranium. A vertical driving unit controls a distance between two light transmission tubes. A light source supplies light to a second light transmission tube(122). A spectrometer(136) analyzes light inputted through a first light transmission tube(120). A first reflection mirror(124) faces a second reflection mirror. The first light transmission tube and a second light transmission tube are made of quartz materials.
Abstract translation: 目的:提供一种用于测量高温熔盐的铀浓度的装置,通过根据铀的浓度密度控制两个光传输管之间的距离来保持最佳分析状态。 构成:将透光管浸入包括铀在内的熔盐中。 垂直驱动单元控制两个光传输管之间的距离。 光源将光提供给第二透光管(122)。 光谱仪(136)分析通过第一透光管(120)输入的光。 第一反射镜(124)面向第二反射镜。 第一透光管和第二透光管由石英材料制成。
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公开(公告)号:KR100988113B1
公开(公告)日:2010-10-18
申请号:KR1020077026147
申请日:2006-03-07
Applicant: 올림푸스 메디칼 시스템즈 가부시키가이샤
CPC classification number: G01J3/50 , A61B1/00186 , A61B1/045 , A61B1/0638 , A61B1/0646 , A61B5/0075 , A61B5/0084 , A61B5/7203 , G01J3/32 , G01J3/501 , G01J3/513 , G01J2003/1213 , G01J2003/1221 , G01N21/255 , G01N2201/08 , G01N2201/0846 , G02B23/2446 , G02B23/2469 , H04N2005/2255
Abstract: 피검체인 생체에 광을 조사하는 조명부와, 그 조사광에 기초하여 상기 생체로부터 반사되는 광을 광전 변환하여, 촬상 신호를 생성하는 촬상부와, 상기 조명부 및/또는 상기 촬상부의 동작을 제어하여, 표시 장치에 상기 촬상 신호를 출력하는 신호 처리 제어부를 구비하고, 상기 신호 처리 제어부가, 상기 촬상 신호로부터 광학적 파장 협대역의 화상에 대응하는 분광 신호를 신호 처리에 의해 생성하는 분광 신호 생성부와, 상기 분광 신호를 상기 표시 장치에 출력할 때에 해당 분광 신호를 형성하는 복수의 대역마다 서로 다른 색조를 할당하는 색 조정부 외에, 상기 표시 장치에 출력되는 신호의 화질을 조정하는 화질 조정부를 더 구비하거나, 혹은 상기 분광 신호 생성부와 상기 색 조정부를 적어도 제외한 그 밖의 신호 처리부가, 상기 촬상 신호와 상기 분광 신호 각각의 신호 처리에서 공유되어 있는 것을 특징으로 한다.
광원부, 제어부, 휘도 신호 처리부, 색 신호 처리부, 색 조정부-
公开(公告)号:KR100614951B1
公开(公告)日:2006-08-25
申请号:KR1020047002324
申请日:2001-09-28
Applicant: 가부시끼가이샤 히다치 세이사꾸쇼
IPC: G01N21/76
CPC classification number: G01N21/76 , G01N21/253 , G01N2201/0846
Abstract: A luminescence microarray plate suitable for use in luminescent reaction, and a luminescence detecting device utilizing the microarray plate. A partition wall is provided around each microarray minute reaction region to prevent the entry of surrounding luminescence. Luminescence from each minute region is detected by a photo conducting guide. The amount of entry of surrounding luminescence can be reduced and improvements in accuracy and sensitivity can be achieved.
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公开(公告)号:TW201730623A
公开(公告)日:2017-09-01
申请号:TW105124825
申请日:2016-08-04
Applicant: 大塚電子股份有限公司 , OTSUKA ELECTRONICS CO., LTD.
Inventor: 白岩久志 , SHIRAIWA, HISASHI
CPC classification number: G01J3/28 , G01J3/0208 , G01J3/0218 , G01J3/18 , G01J3/2803 , G01J3/44 , G01J3/4406 , G01N21/6452 , G01N21/6458 , G01N21/65 , G01N2021/6484 , G01N2201/0833 , G01N2201/0846 , G02B21/0032 , G02B21/004 , G02B21/0064
Abstract: 本發明之課題係提供一種更優異之顯微分光裝置。 本發明之顯微分光裝置包含:光源;複數條投光纖維,其等接收來自上述光源之光;分光器;複數條受光纖維,其等用於將接收到之光導向上述分光器;及共焦光學系統,其係用於將來自上述複數條投光纖維之複數束光束分別聚光而照射於試樣,使來自上述試樣之複數個聚光點之複數束光束分別於上述複數條受光纖維成像。
Abstract in simplified Chinese: 本发明之课题系提供一种更优异之显微分光设备。 本发明之显微分光设备包含:光源;复数条投光纤维,其等接收来自上述光源之光;分光器;复数条受光纤维,其等用于将接收到之光导向上述分光器;及共焦光学系统,其系用于将来自上述复数条投光纤维之复数束光束分别聚光而照射于试样,使来自上述试样之复数个聚光点之复数束光束分别于上述复数条受光纤维成像。
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Patent Agency Ranking
公开(公告)号:US12078581B2
公开(公告)日:2024-09-03
申请号:US18087787
申请日:2022-12-22
Applicant: TASCOM CO., LTD.
Inventor: Sung Dong Lee
IPC: B01L3/00 , B04B9/14 , G01N1/40 , G01N21/07 , G01N21/31 , G01N21/64 , G01N21/76 , G01N33/49 , G01N35/00 , G01N35/02 , G01N35/04 , B04B5/04 , G01N21/03
CPC classification number: G01N1/4077 , B01L3/502753 , B04B9/14 , B04B9/146 , G01N21/07 , G01N21/31 , G01N21/64 , G01N21/6428 , G01N21/76 , G01N33/491 , G01N35/00594 , G01N35/025 , G01N35/04 , B04B5/0407 , G01N2001/4083 , G01N2021/0325 , G01N2021/0378 , G01N2035/00504 , G01N2201/0423 , G01N2201/08 , G01N2201/0846
Abstract: A biological material measuring instrument is described. The biological material measuring instrument includes a rotating body and a main body. The rotating body includes one or more cartridge holders having cuvettes in which a reagent and an analyte in a sample react. The main body includes a pair of light-emitting parts and light-receiving parts to optically measure the analyte in the sample. The rotating body further includes a light-emitting optical waveguide for guiding the light of the light-emitting parts to the cuvette, and a light-receiving optical waveguide for guiding.
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公开(公告)号:US12025562B2
公开(公告)日:2024-07-02
申请号:US17809620
申请日:2022-06-29
Inventor: Peter Hartmann , Tobias Baselt , Wulf Grählert , Oliver Throl , Philipp Wollmann
CPC classification number: G01N21/8422 , G01J3/50 , G01N21/27 , G01N21/47 , G01N2021/8427 , G01N2201/0846
Abstract: In the method for optical monitoring and/or determination of properties on samples, monochromatic electromagnetic radiation with a predetermined wavelength is sequentially directed from several radiation sources onto a sample influenced by an electronic evaluation unit. The respective intensity specific to the wavelength of the electromagnetic radiation scattered and/or reflected by the sample is detected by at least one detector and fed to the electronic evaluation unit for spectrally resolved evaluation in order to use it to monitor and/or determine properties of the respective sample.
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98.发明申请公开(公告)号:US20190250392A1
公开(公告)日:2019-08-15
申请号:US16343229
申请日:2016-10-25
Applicant: LYNCEE TEC SA
Inventor: Etienne CUCHE , Yves EMERY
CPC classification number: G02B21/14 , G01B9/02007 , G01B9/02028 , G01B9/02091 , G01B2290/70 , G01N21/453 , G01N2021/4186 , G01N2021/458 , G01N2201/082 , G01N2201/0846 , G02B21/06 , G02B27/10 , G02B27/14 , G03H1/0005 , G03H1/041 , G03H1/0443 , G03H1/0465 , G03H2001/005 , G03H2001/0452 , G03H2001/0456 , G03H2001/0469 , G03H2001/0471 , G03H2223/16 , G03H2223/24 , G03H2223/26
Abstract: An optical fiber splitter device comprising at least two optical fibers of different lengths is disclosed for partial or complete compensation of the optical path difference between waves interfering to generate a hologram or an interferogram. Various implementations of this fiber splitter device are described in apparatuses for holographic and interferometric imaging of microscopic and larger samples.
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公开(公告)号:US09824440B2
公开(公告)日:2017-11-21
申请号:US14085732
申请日:2013-11-20
Applicant: VANDERBILT UNIVERSITY
Inventor: Anita Mahadevan-Jansen , The-Quyen Nguyen , Xiaohong Bi , Zain Gowani , Ginger Holt , Isaac Pence
CPC classification number: G06T7/0012 , A61B5/0071 , A61B5/0075 , A61B2505/05 , G01N21/6486 , G01N21/65 , G01N2201/0846 , G06T2207/30096
Abstract: In one aspect, the present invention relates to a system evaluating a surgical margin of tumor tissues of a living subject. In one embodiment, the system includes a light source configured to emit a source light; at least one optical probe; a scanner; a spectrometer; and a controller coupled with the scanner and the spectrometer for operably controlling the scanner and the spectrometer. In operation, a working end of the optical probe is positioned proximate to a surface of a specimen of the tumor tissues. A source channel of the optical probe deliver the source light emitted by the light source from the working end to the surface of the specimen, and a plurality of collection channels collect from the working end diffused/reflected light generated from interaction of the source light with the specimen. The spectrometer receives the collected diffused/reflected light to evaluate a margin status of the specimen.
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公开(公告)号:US09702816B2
公开(公告)日:2017-07-11
申请号:US15105397
申请日:2013-12-17
Applicant: AKTIEBOLAGET SKF
Inventor: Florin Tatar , Defeng Lang
IPC: G01N21/3577 , G01J3/42 , G01N33/28 , G01N21/3554 , G01N21/359 , G01N21/45 , G01N21/85 , G01J3/02
CPC classification number: G01N21/3577 , G01J3/0218 , G01J3/42 , G01J3/45 , G01J3/4531 , G01N21/3554 , G01N21/359 , G01N21/45 , G01N21/8507 , G01N33/2847 , G01N33/2888 , G01N2201/0846
Abstract: A detector for oil condition monitoring includes an optical fiber having a first end and a second end having an end face. A sensor body has a gap in which a sample of the oil may be received and a reflecting surface, the second end of the optical fiber being embedded in the sensor body and having an end face spaced from the reflecting surface across the gap. Light emitted from the optical fiber can pass through the sample of oil and be reflected by the reflecting surface back into the optical fiber. By interferometry of the respective signals, the condition of the oil can be determined.
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