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公开(公告)号:KR101691493B1
公开(公告)日:2017-01-02
申请号:KR1020150124785
申请日:2015-09-03
Applicant: 서강대학교산학협력단
Abstract: 본발명은신호빔과기준빔으로평행빔을사용하는간섭계에사용되는시료카트리지및 바이오칩에관한것이다. 상기평행빔간섭계용시료카트리지는, 일면에기준영역과시료가놓일시료영역이설정된기판; 및상기기판의기준영역의표면에반사물질이균일하게코팅되어형성된반사부;를구비한다. 상기시료카트리지는, 기준빔이제공되는기준영역과신호빔이제공되는시료영역을하나의기판위에모두구비함으로써, 광정렬이용이하고시료에대한기울기측정오차가발생되지않도록한다.
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公开(公告)号:KR101647063B1
公开(公告)日:2016-08-10
申请号:KR1020160002627
申请日:2016-01-08
Applicant: 서강대학교산학협력단
Abstract: 본발명은다중왕복경로톰슨산란을이용한플라즈마진단시스템에관한것이다. 상기플라즈마진단시스템은, 광원으로부터제공된레이저빔 펄스를이용하여, 수직편광상태의레이저빔 펄스와수평편광상태의레이저빔 펄스를순차적으로플라즈마로제공하는광학계; 상기광학계로부터제공된수직편광상태의레이저빔 펄스가집속되었을때 플라즈마에서산란된제1 집광신호를측정하고, 상기광학계로부터제공된수평편광상태의레이저빔 펄스가집속되었을때 플라즈마에서여기된제2 집광신호를측정하는집광계; 및상기집광계에의해측정된제1 및제2 집광신호들을이용하여, 플라즈마에대한톰슨산란신호를측정하는제어부;를구비하고, 상기제1 집광신호는톰슨산란신호와배경산란잡음신호가혼합된신호이며, 제2 집광신호는배경산란잡음신호로구성된다. 본발명에따른다중왕복경로톰슨산란을이용한플라즈마진단시스템은플라즈마내부로수직편광상태의레이저빔 펄스와수평편광상태의레이저빔 펄스를순차적으로제공하여플라즈마로부터산란된신호들을측정함으로써, 배경산란잡음신호가제거된톰슨산란신호를정확하게측정하는것을특징으로한다.
Abstract translation: 本发明涉及使用多圆路径汤姆逊散射的等离子体诊断系统。 该系统包括:使用从光源提供的激光束脉冲顺序地提供垂直和水平偏振的激光束脉冲的光学系统; 当从光学系统提供的垂直偏振激光束脉冲被准直时,测量在等离子体中散射的第一光束收集信号的光束收集系统,并且当从光学器件提供的水平偏振激光束脉冲测量在等离子体中激发的第二光束收集信号 系统准直 以及控制单元,用于通过使用由束收集系统测量的第一和第二束收集信号来测量相对于等离子体的汤姆逊散射信号。 第一光束采集信号是通过混合汤姆逊散射信号和背景散射噪声信号形成的信号,第二光束采集信号由背景散射噪声信号组成。 根据本发明,由于垂直和水平偏振的激光束脉冲被顺序地提供到等离子体的内部,并且测量从等离子体散射的信号,所以等离子体诊断系统精确地测量汤姆森散射信号,背景散射噪声 信号被去除。
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Patent Agency Ranking
公开(公告)号:KR101647062B1
公开(公告)日:2016-08-10
申请号:KR1020160002611
申请日:2016-01-08
Applicant: 서강대학교산학협력단
Abstract: 본발명은다중경로톰슨산란을이용한플라즈마진단시스템에관한것이다. 상기플라즈마진단시스템은, 플라즈마내의서로다른영역에광집속되는제1 및제2 광집속부를구비하고, 상기광원으로부터제공된레이저빔 펄스를이용하여, 제1 및제2 광집속부에수직편광상태의레이저빔 펄스와수평편광상태의레이저빔 펄스를제공하는광학계; 상기제1 광집속부에의해집속된레이저빔 펄스에의해플라즈마에서산란된신호들을집광한제1 집광신호및 상기제2 광집속부에의해집속된레이저빔 펄스에의해플라즈마에서산란된신호들을집광한제2 집광신호를측정하여제공하는집광계; 및상기집광계에의해측정된제1 및제2 집광신호들을이용하여, 플라즈마에대한톰슨산란신호를측정하는제어부;를구비하고, 상기제1 및제2 집광신호는집속된레이저빔 펄스의편광상태에따라톰슨산란신호와배경산란잡음신호가혼합되어구성된혼합신호및 배경산란잡음신호중 하나로구성된다. 본발명에따른다중경로톰슨산란을이용한플라즈마진단시스템은플라즈마의서로다른 2 영역에레이저빔 펄스를광집속하여다중경로로산란을발생시키고, 플라즈마로부터산란된신호들을다중으로측정함으로써, 정확한산란신호들의측정이가능하다.
Abstract translation: 本发明涉及使用多径Thomson散射的等离子体诊断系统。 该系统包括:具有第一和第二光束收集单元的光学系统,用于在等离子体内的不同区域收集光束,并且使用从光源提供的激光束脉冲来向第一和第二光束收集提供垂直和水平偏振的激光束脉冲 单位; 准直系统,测量由第一光束收集单元收集的激光束脉冲对等离子体中散射的信号进行准直的第一准直光束信号;以及第二准直光束信号,通过由第二光束收集部收集的激光束脉冲对散射在等离子体中的信号进行准直 提供第一和第二测量的准直束信号的单元; 以及控制单元,用于通过使用由准直系统测量的第一和第二准直波束信号来测量相对于等离子体的汤姆逊散射信号。 第一和第二准直波束信号由背景散射噪声信号或通过根据所收集的激光束脉冲的偏振状态将汤姆逊散射信号与背景散射噪声信号混合而形成的混合信号形成。 根据本发明,系统在等离子体的两个不同区域中收集激光束脉冲以产生多径散射,并且测量从等离子体多次散射的信号,由此精确地测量散射信号。
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公开(公告)号:KR101351996B1
公开(公告)日:2014-01-24
申请号:KR1020120093876
申请日:2012-08-27
Applicant: 서강대학교산학협력단
IPC: G01B9/02 , G01N33/483
Abstract: The present invention relates to a biochemical fluidic channel read-out sensor which can obtain stability for a long time using a dual heterodyne interferometer. The biochemical fluidic channel read-out sensor comprises: a sample input device having fluid channels; and a dual beam generator for dividing light generated from a light source into first and second beams in parallel. A first interferometer is formed by the first beam, and a second interferometer is formed by the second beam. The first and second interferometers are formed of the same light route in a state of being separated from each other at the distance between the first and second beams. The dual heterodyne interferometer of the biochemical fluidic channel read-out sensor implements the two interferometers actually having the same route in the optical structure of one interferometer using dual beams. Thus, the biochemical fluidic channel read-out sensor obtains the stability for a long time. [Reference numerals] (AA) Metal nanoparticle; (BB) Adhesive strength; (CC,FF) Support; (DD) Measure the adhesive strength; (EE) Metal-coated probe of an AFM
Abstract translation: 本发明涉及一种生物化学流体通道读出传感器,其可以使用双外差干涉仪获得长时间的稳定性。 生化流体通道读出传感器包括:具有流体通道的样品输入装置; 以及双光束发生器,用于将从光源产生的光并入第一和第二光束。 第一干涉仪由第一光束形成,第二干涉仪由第二光束形成。 第一和第二干涉仪由在第一和第二光束之间的距离处彼此分离的状态下由相同的光路组成。 生物化学流体通道读出传感器的双外差干涉仪使用双光束实现在一个干涉仪的光学结构中实际上具有相同路线的两个干涉仪。 因此,生化流体通道读出传感器长时间获得稳定性。 (AA)金属纳米粒子; (BB)粘合强度; (CC,FF)支持; (DD)测量粘合强度; (EE)AFM的金属涂层探针
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公开(公告)号:KR1020130101607A
公开(公告)日:2013-09-16
申请号:KR1020120012260
申请日:2012-02-07
Applicant: 서강대학교산학협력단
Abstract: PURPOSE: A free-space optical communication module is provided to input and output an incident light and an emitting light through one lens unit. CONSTITUTION: An optical communication module (10) comprises a light transmitting unit including a light emitting device (LED) (112), a light receiving unit including a photodetector (122), and a lens unit (100). The lens unit is defined by coupling a first lens having a first focal distance and a second lens having a second focal distance. The LED is disposed at a first position at which light outputted from the LED in depth of focus of the first lens spreads at a predetermined divergence angle in correspondence with an optical communication direction. The photodetector is disposed at a second position at which the real image of the light received from the LED of the other optical communication module in depth of focus of the second lens is formed in correspondence with an optical communication direction. [Reference numerals] (116) First amplifier; (118) First signal processor; (126) Second amplifier; (128) Second signal processor
Abstract translation: 目的:提供自由空间光通信模块,以通过一个透镜单元输入和输出入射光和发光。 一种光通信模块(10),包括:发光单元,包括发光器件(LED)(112),光接收单元包括光电检测器(122)和透镜单元(100)。 通过联接具有第一焦距的第一透镜和具有第二焦距的第二透镜来限定透镜单元。 LED设置在第一位置,在第一位置处,与第一透镜相对应的从第一透镜的深度的LED输出的光以预定的发散角扩展。 光检测器设置在第二位置,在第二位置处,与光通信方向对应地形成从第二透镜的焦点深度的另一光通信模块的LED接收的光的实像。 (附图标记)(116)第一放大器; (118)第一信号处理器; (126)第二放大器; (128)第二信号处理器
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公开(公告)号:KR101214854B1
公开(公告)日:2012-12-24
申请号:KR1020110049722
申请日:2011-05-25
Applicant: 서강대학교산학협력단
Abstract: 본발명은이종모드광원을이용한헤테로다인간섭계에관한것이다. 본발명에따른이종모드광원을이용한헤테로다인간섭계는광원; 측정시료가놓여지는시료대; 상기시료대와평행하게배치되고, 주사되는기준빛을반사시키는제1 반사부; 상기광원에서발생된광을주파수가다르고편광방향이서로수직한제1 빛및 제2 빛으로분리하는제1 편광빛살가르개(PBS); 상기제1 빛을편광방향이서로수직한제1 로컬신호(LO) 및기준빛으로분리하여제공하는기준빛생성부; 상기제2 빛을편광방향이서로수직한제2 로컬신호(LO) 및신호빛으로분리하여제공하는신호빛생성부; 상기제1 로컬신호와제2 로컬신호의간섭신호를검출하여외부로제공하는제1 광검출수단(PD1); 및상기제2 반사부로주사된후 반사되는기준빛과시료로주사된후 반사되는신호빛의간섭신호를검출하여외부로제공하는제2 광검출수단(PD2);을구비하고, 상기기준빛및 신호빛은동일한광학경로길이를갖는것을특징으로한다. 본발명에따른이종모드광원을이용한헤테로다인간섭계는기준빛과신호빛이동일한광학경로길이를갖으면서, 굉장히컴팩트(Compact)한구조를갖게되므로, 외부노이즈를줄일수 있어안정적인측정이가능하다는장점을갖는다.
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公开(公告)号:KR1020110082939A
公开(公告)日:2011-07-20
申请号:KR1020100002887
申请日:2010-01-12
Applicant: 서강대학교산학협력단
IPC: G01N21/27 , G01N33/483
Abstract: PURPOSE: A surface plasmon biosensor using a light feedback source is provided to enable relatively easy optical alignment, low cost and miniaturization using a laser generator and an SPR system. CONSTITUTION: A surface plasmon biosensor comprises an SPR system, a light source and an automatic distance control unit. The SPR system modifies and outputs a generated measuring signal. The light source senses and outputs the measuring signal fed back from the SPR system(120). The automatic distance control unit adjusts the distance between the light source and the SPR system. A signal processing unit senses the property of a sample depending on surface plasmon resonance effect using an AC signal supplied from a driving control unit.
Abstract translation: 目的:提供使用光反馈源的表面等离子体激元传感器,以实现使用激光发生器和SPR系统的相对容易的光学对准,低成本和小型化。 构成:表面等离子体激元传感器包括SPR系统,光源和自动距离控制单元。 SPR系统修改并输出生成的测量信号。 光源感测并输出从SPR系统(120)反馈的测量信号。 自动距离控制单元调节光源与SPR系统之间的距离。 信号处理单元使用从驱动控制单元提供的AC信号来检测取决于表面等离子体共振效应的样品的性质。
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