公开(公告)号：KR101361980B1

公开(公告)日：2014-02-12

申请号：KR1020120105115

申请日：2012-09-21

Applicant: 한국과학기술원

Inventor： 김승우 ,  김윤석 ,  김승만 ,  한승회 ,  박상욱 ,  박지용

IPC: G02B6/124

CPC classification number: G02B6/4221 ,  G02B6/124 ,  G02B6/2706 ,  G02B6/4204 ,  G02B6/4214 ,  G02B6/4226 ,  H01S3/0057 ,  H01S3/06754 ,  H01S3/10007 ,  H01S3/1301

Abstract: The present invention relates to an active compensation system of a chirp pulse amplification system having an optical fiber as an amplification medium. The chirp pulse amplification system including a diffraction grating pulse dilator compares and compensates the position of the beam emitted from the pulse dilator and an optical fiber amplification load. The present invention comprises a position measuring unit for detecting the position of the beam emitted therefrom and a compensation unit for compensating to match the positions of the two beams detected by the position measuring unit via controlling them optically.

Abstract translation: 本发明涉及一种具有光纤作为放大介质的啁啾脉冲放大系统的有源补偿系统。 包括衍射光栅脉冲扩张器的啁啾脉冲放大系统比较和补偿从脉冲扩张器发射的光束的位置和光纤放大负载。 本发明包括用于检测从其发射的光束的位置的位置测量单元和补偿单元，用于通过光学控制来补偿由位置测量单元检测到的两个光束的位置。

公开(公告)号：KR101358672B1

公开(公告)日：2014-02-11

申请号：KR1020130034212

申请日：2013-03-29

Applicant: 한국과학기술원

Inventor： 김승우 ,  김윤석 ,  박상욱 ,  유준호

IPC: B23K26/00 ,  B23K26/40 ,  C03B33/09 ,  B23K26/08

CPC classification number: B23K26/0057 ,  B23K26/0006 ,  B23K26/0624 ,  B23K26/08 ,  B23K26/38 ,  B23K26/40 ,  B23K2203/42 ,  B23K2203/50 ,  B23K2203/52 ,  B23K2203/54 ,  B23K2203/56 ,  C03B33/04 ,  C03B33/091 ,  Y10T225/10 ,  Y10T225/304

Abstract: The present invention relates to a transparent material processing method and a dicing apparatus for processing a transparent material. The transparent material processing method comprises: a step for forming a focusing point by generating and focusing a ultrafast pulse laser, where a peak wavelength corresponds to a pass band of a transparent material, having a pulse width of 10 fs-10 ps from a laser source; a step for delivering energy to an inside of the transparent material by the focusing pulse laser beam by locating a focusing point of the pulse laser beam in order to locate the focusing point in an inside of both surfaces of the transparent material; and a step for generating and propagating a crack to include that the crack on the transparent material is separated from a movement line of the focusing point at regular intervals and propagated by relatively moving the focusing point or the transparent material along a cutting line of a desired shape.

Abstract translation: 本发明涉及一种用于处理透明材料的透明材料处理方法和切割装置。 透明材料处理方法包括：通过产生和聚焦超快脉冲激光器形成聚焦点的步骤，其中峰值波长对应于透明材料的通带，其具有来自激光器的10fs-10ps的脉冲宽度 资源; 通过定位脉冲激光束的聚焦点，通过聚焦脉冲激光束将能量传递到透明材料的内部以将聚焦点定位在透明材料的两个表面的内部的步骤; 以及用于产生和传播裂纹以包括透明材料上的裂纹以规则的间隔从聚焦点的移动线分离出来并通过相对移动聚焦点或透明材料沿着期望的切割线而传播的步骤 形状。

公开(公告)号：KR1020130134199A

公开(公告)日：2013-12-10

申请号：KR1020120057545

申请日：2012-05-30

Applicant: 한국과학기술원

Inventor： 김승우 ,  김윤석 ,  김승만 ,  한승회 ,  박상욱 ,  박지용

IPC: H01S3/067 ,  H01S3/098 ,  H01S3/10

CPC classification number: H01S3/06704 ,  G02B27/149 ,  H01S3/10061 ,  H01S5/5072

Abstract: The present invention relates to an entire normal dispersion optical fiber laser resonator having a repetition rate of less than 10 MHz which is a mode locked through a saturation absorber and a nonlinear polarization rotation phenomenon, comprising a laser diode which outputs a laser pump light; a wavelength divider which couples the laser pump light outputted in the laser diode inside the resonator; a yitterbium addition optical fiber which amplifies a pulse of the resonator that penetrates the wavelength divider using the coupled pump light; a first wavelength plate (1/4) and a first wavelength plate (1/2) which convert the polarization of a laser light that penetrates the optical fiber; a first polarization light divider which separates the polarization of the laser light that penetrates each of the first wavelength plates; a birefringence determination based optical filter and an interference filter which respectively filters the penetration band of the light that penetrates the first polarization light divider; an optical shielding device which blocks a part of the light in the polarization that penetrates the interference filter; a second wavelength plate (1/2) which converts the polarization of the light that penetrates the optical shielding device; a second polarization light divider which separates the polarization of the laser light that penetrates the second wavelength plate; a second wavelength plate (1/4) which converts the polarization of the light that penetrates the second polarization light divider; a lens which penetrates the light that penetrates the second wavelength plate; a saturation absorber which induces a mode locking of the light that penetrates the lens; a third wavelength plate (1/4) which converts the polarization of the mode locked laser light; and a single mode optical fiber which induces the low repetition rate of the laser light that penetrates the third wavelength plate, wherein the laser light outputted in the laser diode is sequentially penetrated.

Abstract translation: 本发明涉及一种具有小于10MHz的重复频率的整个正常色散光纤激光谐振器，它是通过饱和吸收器锁定的模式和非线性偏振旋转现象，包括输出激光泵浦光的激光二极管; 波长分配器，耦合在激光二极管内输出的激光泵浦光; 一种掺镱添加光纤，其使用耦合的泵浦光来放大穿透波长分配器的谐振器的脉冲; 第一波长板（1/4）和第一波长板（1/2），其转换穿透光纤的激光的偏振; 第一偏振光分离器，其分离穿透每个第一波长板的激光的偏振; 基于双折射确定的光学滤波器和干涉滤光器，其分别滤光穿透第一偏振光分光器的光的穿透带; 光屏蔽装置，其阻挡穿过干涉滤光器的极化中的一部分光; 第二波长板（1/2），其转换穿过光学屏蔽装置的光的偏振; 第二偏振光分离器，其分离穿透第二波长板的激光的偏振; 第二波长板（1/4），其转换穿过第二偏振光分离器的光的偏振; 穿透第二波长板的光的透镜; 饱和吸收体，其诱导透过透镜的光的模式锁定; 转换模式锁定激光的偏振的第三波长板（1/4）; 以及引起穿透第三波长板的激光的低重复率的单模光纤，其中激光二极管中输出的激光依次被穿透。

公开(公告)号：KR101268569B1

公开(公告)日：2013-05-28

申请号：KR1020110057551

申请日：2011-06-14

Applicant: 한국과학기술원

Inventor： 김승우 ,  김윤석 ,  김승만 ,  한승회 ,  박지용

IPC: H01S3/067 ,  H01S3/083

Abstract: 본발명은포화광흡수체거울과광학필터를이용한극초단광섬유레이저공진기에관한것으로, 레이저펌핑광을출사하는펌핑광원, 상기펌핑광원에서출사되는펌핑광의파장을공진기내부로입사시키는파장분할기, 상기파장분할기를통해입사하는광을이용하여발진기내부공진광을증폭시키는이터븀첨가광섬유, 공진기광경로를구성하는단일모드광섬유및 공진기내부광을모드잠금하기위한펄스발진부;를포함하여공진기를구성하고, 상기펄스발진부는, 편광을조절하여원하는경로를설정하는파장판(wave plate), 한방향공진을유도하는광 차폐기(optical isolator), 공진을통해넓어지는스펙트럼의양 끝단을제거하여안정적인공진이가능토록하는광학필터(optical filter) 및광량기반모드잠금현상을유도하기위한포화광흡수체소자를포함하여구성된다.

公开(公告)号：KR101268568B1

公开(公告)日：2013-05-28

申请号：KR1020110012349

申请日：2011-02-11

Applicant: 한국과학기술원

Inventor： 김승우 ,  김영진 ,  김윤석 ,  유준호 ,  김승만 ,  박상욱 ,  한승회

IPC: H01S3/067 ,  B23K26/36

Abstract: 본발명은, 두가지방법을통해 0.1 ~ 30 MHz의반복률을가지는레이저를생성한다. 첫번째방법은레이저펌핑광을출사하는펌핑광원, 상기광원에서출사되는펌핑광의파장을공진기로입사시키는파장분할기, 상기파장분할기를통해입사하는광을이용하여공진기내부공진광을증폭시키는이터븀첨가광섬유, 공진기내부의편광을조절하여 NPE(nonlinear polarization evolution)을통한편광기반모드잠금을유발하는데필요한제 1파장판, 광차폐기, 제 2파장판, 혹은광량기반모드잠금현상을유발하기위해필요한포화광흡수체를이용하여 30 ~ 200 MHz의반복률을갖는레이저공진기를구성하고, 상기공진기에서출력되는레이저를펄스추출기를이용하여 0.1 ~ 30 MHz의반복률을가지는레이저를생성하는것을특징으로한다. 두번째방법은첫 번째방법과는달리공진기외부에펄스추출기를사용하지않고, 공진기자체적으로 0.1 ~ 30 MHz에해당하는펄스를생성하는것으로, 이를위해단일모드광섬유를추가로공진기내에연결하며, 이로인해발생한과도한분산을보상하기위한분산보상부를삽입하고, 편광기반모드잠금과광량기반모드잠금방법을동시에적용하여안정적인모드잠금이유지되도록하는것을특징으로한다. 또한, 0.1 ~ 30 MHz의반복률을갖는레이저를증폭단을통해증폭하여가공에적용함으로써, 높은수율을보이는가공시스템을구성할수 있다.

公开(公告)号：KR101181719B1

公开(公告)日：2012-09-19

申请号：KR1020100059233

申请日：2010-06-22

Applicant: 한국과학기술원

Inventor： 김승우 ,  김영진 ,  김윤석 ,  유준호 ,  김승만 ,  한승회

IPC: B23K26/55 ,  H01S3/10 ,  H01L21/304 ,  C03B33/09

Abstract: 본 발명은 펨토초 레이저에 의해 나노 보이드 어레이 형성을 통한 절단방법에 관한 것으로, 극초단 펨토초 레이저를 개구수(NA)가 0.7 내지 0.95를 가지는 집광렌즈로 집광시켜 투명재료 또는 기판에 조사함으로써, 비선형 커렌즈(Kerr Lens) 현상에 의한 자체 집속(Self Focusing)과 다중광자이온화(Multi-Photon Ionization) 현상에 의한 플라즈마 디포커싱(Plasma Defocusing) 되도록 하여 기판에 나노 보이드 어레이(Nano-Void Array)를 형성한 후 절단하는 것을 특징으로 한다. 이와 같이 구성되는 본 발명은 나노 보이드 어레이를 형성하여 투명재료의 절단 및 가공 효율을 향상시킬 수 있고, 기존에 불가능한 얇은 투명재료의 효율적인 절단 및 가공을 가능한 이점이 있다.

公开(公告)号：KR1020120092350A

公开(公告)日：2012-08-21

申请号：KR1020110012349

申请日：2011-02-11

Applicant: 한국과학기술원

Inventor： 김승우 ,  김영진 ,  김윤석 ,  유준호 ,  김승만 ,  박상욱 ,  한승회

IPC: H01S3/067 ,  B23K26/36

CPC classification number: H01S3/1115 ,  B23K26/382 ,  H01S3/06791 ,  H01S3/115

Abstract: PURPOSE: A fiber laser systems with the repetition rate of 0.1-30 mhz and specimen manufacturing using the same are provided to implement a stable manual mode lock by simultaneously applying an NPE(Nonlinear Polarization Rotation) phenomenon and a saturable absorber. CONSTITUTION: Pump light generated from a laser diode(301) enters a resonator through a wavelength splitter(300). The pump light is absorbed in a ytterbium additional optical fiber(303). The light letting the resonator resonating passes through a wave plate(304) and a light shielding unit(305). One polarizing component is amplified in the ytterbium additional optical fiber. The amplified polarizing component is outputted through an opto-coupler(302). The outputted light reduces a repetition rate through a pulse extractor(306).

Abstract translation: 目的：提供重复率为0.1-30 mhz的光纤激光系统，并通过同时施加NPE（非线性极化旋转）现象和可饱和吸收器实现稳定的手动模式锁定。 构成：从激光二极管（301）产生的泵浦光通过波长分离器（300）进入谐振器。 泵浦光被镱附加光纤吸收（303）。 谐振器谐振的光通过波片（304）和遮光单元（305）。 在镱附加光纤中放大一个偏振分量。 放大的偏振分量通过光耦合器（302）输出。 输出的光通过脉冲提取器（306）减少重复率。

公开(公告)号：KR1020120058276A

公开(公告)日：2012-06-07

申请号：KR1020100119980

申请日：2010-11-29

Applicant: 한국과학기술원

Inventor： 김승우 ,  김영진 ,  김윤석 ,  김승만 ,  유준호 ,  한승회 ,  박상욱

IPC: B23K26/38 ,  B23K26/14 ,  C03B33/09

Abstract: PURPOSE: A cutting device and method using ultra-short pulse laser and water freezing are provided to prevent the residue on a work piece by forming a void on the underside of the work piece using ultra-short pulse laser and reduce cut scraps by using stress generated from the freezing of water in the void. CONSTITUTION: A cutting device using ultra-short pulse laser and water freezing comprises a laser source, a base plate(104), a vapor supply unit(108), and a cooling gas supply unit(109). The laser source condenses a laser(100) through a condensing lens(110) to a work piece(102) and outputs ultra-short pulse laser to form a void(103) in the work piece. The base plate comprises a vapor supply part(106) and a cooling gas supply part(107) on both sides thereof. The cooling gas supply unit supplies cooling gas to the cooling gas supply part. A crack is generated in the work piece by the laser of the laser source. Vapor and cooling gas are successively supplied and the work piece is cut by expansion resulting from the freezing of vapor.

Abstract translation: 目的：提供使用超短脉冲激光和水冷冻的切割装置和方法，以通过使用超短脉冲激光在工件的下侧上形成空隙来防止工件上的残留物，并通过应力减少切割屑 由空隙中的水冻结产生。 构成：使用超短脉冲激光和水冷冻的切割装置包括激光源，基板（104），蒸气供应单元（108）和冷却气体供应单元（109）。 激光源将激光器（100）通过聚光透镜（110）冷凝到工件（102），并输出超短脉冲激光器以在工件中形成空隙（103）。 基板在其两侧包括蒸气供应部分（106）和冷却气体供应部分（107）。 冷却气体供给单元向冷却气体供给部供给冷却气体。 通过激光源的激光在工件中产生裂纹。 依次供给蒸气和冷却气体，并且通过蒸气冷冻而产生的膨胀来切割工件。

公开(公告)号：KR1020120058274A

公开(公告)日：2012-06-07

申请号：KR1020100119978

申请日：2010-11-29

Applicant: 한국과학기술원

Inventor： 김승우 ,  김영진 ,  김윤석 ,  김승만 ,  유준호 ,  한승회 ,  박상욱

IPC: B23K26/38 ,  B23K26/064 ,  C03B33/09 ,  C03B33/02

CPC classification number: Y02P40/57

Abstract: PURPOSE: A cutting device through the combination of characteristics of a reformed surface according to depth is provided to maintain high surface precision and maximize machining accuracy by freely regulating the size of a reformed area through pulse width control. CONSTITUTION: A cutting device through the combination of characteristics of a reformed surface according to depth comprises a laser source(100), a plurality of mirrors(200-203), a first condensing lens(400), a dispersion control unit(300), and a second condensing lens(401). The laser source outputs pulse laser. The plurality of mirrors split a laser beam output from the laser source or determine the directivity of the laser beam. The first condensing lens condenses one of the laser beams split through the mirrors to irradiate a work piece(500). The dispersion control unit controls the dispersion of another one of the laser beams. The second condensing lens condenses the laser beam dispersed by the dispersion control unit to irradiate the work piece.

Abstract translation: 目的：提供通过根据深度的重整表面特性的组合的切割装置，以通过通过脉冲宽度控制自由调节重整区域的尺寸来保持高表面精度和最大化加工精度。 构成：通过根据深度的重整表面的特性的组合的切割装置包括激光源（100），多个反射镜（200-203），第一聚光透镜（400），色散控制单元（300） ，和第二聚光透镜（401）。 激光源输出脉冲激光。 多个反射镜分离从激光源输出的激光束或确定激光束的方向性。 第一聚光透镜将通过反射镜分离的激光束之一冷凝以照射工件（500）。 色散控制单元控制另一个激光束的色散。 第二聚光透镜将由分散控制单元分散的激光束聚焦以照射工件。

公开(公告)号：KR1020100111908A

公开(公告)日：2010-10-18

申请号：KR1020090030379

申请日：2009-04-08

Applicant: 한국과학기술원

Inventor： 김승우 ,  박정재

IPC: G01B9/02 ,  G01B11/25 ,  G02B5/00

CPC classification number: G01B9/0201 ,  G01B9/02039 ,  G01B9/02057 ,  G01B9/02076 ,  G01B9/02084 ,  G01B2290/35 ,  G01B2290/70

Abstract: PURPOSE: A vibration-insensitive interferometer using a high-speed camera and a continuous phase scanning method is provided to enable direct detection of vibration components which may generate in general weather measurement environment. CONSTITUTION: A vibration-insensitive interferometer comprises a light source(100), a light transmission part(200), a continuous phase scanning part(300), and a high speed camera(400). The light transmission part irradiates the light coming out from the light source to a measurement object, and creates an interference pattern by splitting the light reflected off the object into a reference beam and a measurement beam and making them interfere. The continuous phase scanning part scans the reference beam split by the light transmission part with a continuous phase scanning method. The high speed camera acquires the interference pattern created by the measurement beam irradiated by the light transmission part and the reference beam irradiated by the continuous phase scanning part.

Abstract translation: 目的：提供使用高速摄像机和连续相位扫描方法的无振动干涉仪，以便直接检测在一般气象测量环境中可能产生的振动成分。 构成：无振动干涉仪包括光源（100），光透射部分（200），连续相位扫描部分（300）和高速相机（400）。 光传输部分将从光源出射的光照射到测量对象，并通过将从物体反射的光分成参考光束和测量光束并使其干涉而产生干涉图案。 连续相位扫描部以连续相位扫描法扫描由透光部分分割的参照光束。 高速摄像机获取由透光部照射的测量光和由连续相位扫描部照射的基准光束产生的干涉图。