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1. 发明授权

US6046812A Shape-measuring laser apparatus using anisotropic magnification optics 失效
标题翻译：使用各向异性放大光学元件的形状测量激光设备
公开(公告)号：US6046812A
公开(公告)日：2000-04-04
申请号：US166418
申请日：1998-10-05
申请人： Sung-Hoon Baik , Seung-Kyu Park , Cheol-Jung Kim
发明人： Sung-Hoon Baik , Seung-Kyu Park , Cheol-Jung Kim
IPC分类号： G01B11/25 , G01B11/24
CPC分类号： G06T7/0057 , G01B11/25
摘要： The present invention relates to an apparatus for measuring surface relief profile of an object by projecting a line-shaped laser sheet beam in triangulation method and anisotropic magnification optics for improving the measurement resolution. The purpose of the present invention is to provide a system or an apparatus capable of measuring relief profiles with anisotropic magnification optics composed with one or more positive and one or more negative cylindrical lenses, which allows it to obtain magnified images along the direction vertical to the length-wise direction of the image of a line-shaped laser sheet beam for higher resolution in the relief profile measurements along the direction parallel to the length-wise direction of a line-shaped laser sheet beam image to measure the same range of area as the range without anisotropic magnification optics.
摘要翻译：本发明涉及一种用于通过在三角测量方法和各向异性放大光学器件中投射线状激光束光束来改善测量分辨率来测量物体的表面凹凸轮廓的装置。本发明的目的是提供一种能够利用由一个或多个正的和一个或多个负的柱面透镜组成的各向异性放大光学元件来测量浮雕轮廓的系统或装置，这允许它沿垂直于沿着平行于线状激光束光束图像的长度方向的方向的平面轮廓测量中的用于更高分辨率的线状激光片光束的图像的长度方向，以测量与无范围放大光学范围。

2. 发明授权

US07323651B2 Method for isotope separation of thallium 失效
标题翻译：铊同位素分离方法
公开(公告)号：US07323651B2
公开(公告)日：2008-01-29
申请号：US10522461
申请日：2002-09-18
申请人： Do-Young Jeong , Kwang-Hoon Ko , Gwon Lim , Cheol-Jung Kim
发明人： Do-Young Jeong , Kwang-Hoon Ko , Gwon Lim , Cheol-Jung Kim
IPC分类号： B01D5/00
CPC分类号： B01D59/34
摘要： A method for isotope separation of thallium using a laser beam comprising the steps of: (a) producing photons of a first frequency by a laser system, wherein a wave length of the first frequency is about 378 nm; (b) producing photons of a second frequency by the laser system, wherein a wave length of the second frequency is about 292 nm; (c) producing photons of a third frequency by the laser system, wherein a wave length of the third frequency is in the range of 700 nm to 1400 nm; (d) applying the photons of the first, second and third frequencies to the vapor of the thallium, wherein the photons of the first frequency pump isotope-selectively a plurality of ground state thallium atoms through an excited state into a metastable state, and wherein the photons of the second frequency excite a plurality of metastable state thallium atoms to an intermediate, resonant state, and wherein the photons of the third frequency ionize a plurality of atoms in the intermediate, resonant state through continuum states; and (e) collecting the isotope ions. Thallium isotope can efficiently be separated with small scale facilities.
摘要翻译：一种使用激光束同位素分离铊的方法，包括以下步骤：（a）通过激光系统产生第一频率的光子，其中第一频率的波长约为378nm; （b）通过所述激光系统产生第二频率的光子，其中所述第二频率的波长为约292nm; （c）通过激光系统产生第三频率的光子，其中第三频率的波长在700nm至1400nm的范围内; （d）将第一，第二和第三频率的光子施加到铊的蒸汽，其中第一频率泵同位素的光子选择性地将多个基态铊原子通过激发态转化为亚稳态，并且其中第二频率的光子将多个亚稳状态铊原子激发到中间的共振状态，并且其中第三频率的光子通过连续态电离处于中间共振状态的多个原子; 和（e）收集同位素离子。铊同位素可以用小规模的设施有效分离。

3. 发明授权

US06555780B1 Method for monitoring the size variation and the focus shift of a weld pool in laser welding 失效
标题翻译：用于监测激光焊接中焊池的尺寸变化和聚焦位移的方法
公开(公告)号：US06555780B1
公开(公告)日：2003-04-29
申请号：US10006140
申请日：2001-12-10
申请人： Cheol-Jung Kim , Sung-Hoon Baik , Min-Suk Kim , Chin-Man Chung
发明人： Cheol-Jung Kim , Sung-Hoon Baik , Min-Suk Kim , Chin-Man Chung
IPC分类号： B23K2620
CPC分类号： B23K26/032 , B23K26/03 , B23K26/034
摘要： In a laser welding, a laser beam is focused on a workpiece by a focusing lens or lenses. The focusing lens or lenses image an aperture liming the size of the laser beam on the workpiece and the size of focused laser beam is the image size of the aperture on the workpiece at the wavelength of the laser. A weld pool is generated by the interaction of the focused laser beam and the workpiece. Due to the thermal conduction of the workpiece, the size of the weld pool is generally not the same as the size of the focused laser beam and varies with the power of the laser or with the focus shift of the focusing lens or lenses. The weld pool irradiates a thermal radiation. The thermal radiation is measured back through the focusing lens or lenses and through the aperture limiting the size of the laser beam or any other aperture limiting a size of the thermal radiation to be measured in three spectral bands with single element detectors. Due to the chromatic aberration of the focusing lens or lenses, the transmittance of each spectral band of the thermal radiation varies with the size variation and with the focus position of a weld pool and the spectral band signals measured with single-element detectors vary if the size and/or the focus position of a weld pool varies. However, the chromatic aberration of the focusing lens or lenses is usually unknown and is not easy to measure. A method to monitor the size variation and/or the focus position of a weld pool is disclosed wherein the effects of the chromatic aberration are measured experimentally and the size variation of a weld pool is monitored independently from the focus shift of the focusing lens or lenses and the focus position of a weld pool is monitored independently from the power variation of the laser.
摘要翻译：在激光焊接中，激光束通过聚焦透镜聚焦在工件上。聚焦透镜或透镜对激光束在工件上的尺寸进行成像，并且聚焦激光束的尺寸是在激光波长处工件上的孔径的图像尺寸。焊池由聚焦激光束与工件的相互作用产生。由于工件的热传导，熔池的尺寸通常与聚焦的激光束的尺寸不同，并随着激光的功率或聚焦透镜的聚焦偏移而变化。焊接池照射热辐射。通过聚焦透镜或透镜测量热辐射，并通过孔径限制激光束或任何其他孔径的尺寸，以单个元件检测器限制三个光谱带中待测量的热辐射的尺寸。由于聚焦透镜或透镜的色差，热辐射的每个光谱带的透射率随着尺寸变化和焊池的焦点位置而变化，并且用单元件检测器测量的光谱带信号变化如果焊池的尺寸和/或焦点位置不同。然而，聚焦透镜或透镜的色差通常是未知的并且不容易测量。公开了一种用于监测焊池的尺寸变化和/或焦点位置的方法，其中色差的影响通过实验测量，并且独立于聚焦透镜或聚焦透镜的聚焦偏移监测焊池的尺寸变化并且独立于激光器的功率变化监测焊池的聚焦位置。

4. 发明授权

US07804801B2 QR decomposition apparatus and method for MIMO system 失效
标题翻译：用于MIMO系统的QR分解装置和方法
公开(公告)号：US07804801B2
公开(公告)日：2010-09-28
申请号：US12131617
申请日：2008-06-02
申请人： Yu-Ro Lee , Byung-Chan Kim , Minho Cheong , Chanho Yoon , Je-Hun Lee , Kwhang-Hyun Ryu , Cheol-Jung Kim , Tae-Hyun Jeon , Sok-Kyu Lee
发明人： Yu-Ro Lee , Byung-Chan Kim , Minho Cheong , Chanho Yoon , Je-Hun Lee , Kwhang-Hyun Ryu , Cheol-Jung Kim , Tae-Hyun Jeon , Sok-Kyu Lee
IPC分类号： H04W4/00
CPC分类号： H04L25/0246 , H04L25/03006 , H04L2025/03414 , H04L2025/03426
摘要： Provided are a QR decomposition apparatus and method for a MIMO system. The QR decomposition apparatus includes: a norm calculator for calculating a vector size norm for a channel input; a Q column calculator for calculating a column value of a unitary matrix Q by multiplying a delayed channel input with √{square root over (norm)}; an R row calculator for receiving the delayed channel input, the output of the Q column calculator, and 1/√{square root over (norm)}, and calculating a row value of an upper triangular matrix R; a Q update calculator for receiving the delayed channel input, the output of the R row calculator, and a delayed output of the Q column calculator, and calculating a Q update matrix value; and a norm update calculator for receiving a delayed output of the norm calculator and an output of the R row calculator, and outputting a norm update matrix value.
摘要翻译：提供了一种用于MIMO系统的QR分解装置和方法。 QR分解装置包括：用于计算信道输入的矢量大小范数的范数计算器; Q列计算器，用于通过将延迟的信道输入与{平方根超过（norm）}相乘来计算酉矩阵Q的列值; 用于接收延迟信道输入的R行计算器，Q列计算器的输出和1 /√{平方根超过（norm）}，并计算上三角矩阵R的行值; 用于接收延迟信道输入，R行计算器的输出和Q列计算器的延迟输出的Q更新计算器，并计算Q更新矩阵值; 以及范数更新计算器，用于接收范数计算器的延迟输出和R行计算器的输出，并输出范数更新矩阵值。

5. 发明申请

US20080271986A1 Method for Isotope Separation of Ytterbium 审中-公开
标题翻译：镱同位素分离方法
公开(公告)号：US20080271986A1
公开(公告)日：2008-11-06
申请号：US12066026
申请日：2006-08-22
申请人： Do-Young Jeong , Hyun-Min Park , Jae-Min Han , Cheol-Jung Kim
发明人： Do-Young Jeong , Hyun-Min Park , Jae-Min Han , Cheol-Jung Kim
IPC分类号： B01D59/34
CPC分类号： B01D59/34
摘要： A method for isotope separation of ytterbium comprises isotope-selective photoionizing of a target isotope by use of a laser, and photoionizing of the target isotope from a metastable state to a continuum state or an auto-ionization state through excited states. The photoionized isotope ions of ytterbium can be separated within an electric field. With the method, it is possible to separate a great amount of ytterbium isotope by use of a simple apparatus while ensuring a highly economic efficiency in comparison with a conventional EM method.
摘要翻译：镱的同位素分离方法包括通过使用激光对目标同位素进行同位素选择性光电离，并且通过激发态将目标同位素从亚稳状态光离子化成连续状态或自动电离状态。镱的光电离同位素离子可以在电场内分离。通过该方法，与传统的EM方法相比，可以通过使用简单的装置分离大量的镱同位素，同时确保高度经济的效率。

6. 发明授权

US06188041B1 Method and apparatus for real-time weld process monitoring in a pulsed laser welding 失效
标题翻译：脉冲激光焊接中实时焊接过程监控的方法和装置
公开(公告)号：US06188041B1
公开(公告)日：2001-02-13
申请号：US09190234
申请日：1998-11-13
申请人： Cheol-Jung Kim , Min-Suk Kim , Sung-Hoon Baik , Chin-Man Chung
发明人： Cheol-Jung Kim , Min-Suk Kim , Sung-Hoon Baik , Chin-Man Chung
IPC分类号： B23K2600
CPC分类号： B23K26/034 , B23K26/04 , B23K26/0643 , B23K26/0665
摘要： A method and apparatus for real-time weld process monitoring are provided for a pulsed laser welding. The thermal radiation from a weld pool is measured at several spectral bands through an aperture with single-element detectors after splitting the spectral bands with dichromatic mirrors and beam splitters. The distal end of an optical fiber for laser delivery can be used as an aperture and each spectral band signal is measured with a single-element detector. Due to the chromatic aberration of an imaging optics, the field of view from a single-element detector through the aperture is varied by the wavelength of spectral band. The weld pool size contributing to the spectral band signal varies by the wavelength of the spectral band. The transmittance profile of each spectral band also depends on the focus shift of imaging optics. By processing the measured spectral band signals, the size of a weld pool, the power variation on a workpiece and the focus shift of imaging optics can be monitored simultaneously. Furthermore, the weld pool sizes at predetermined positions in time are correlated to the weld depth and the weld defect such as a weld gap for weld quality assurance.
摘要翻译：为脉冲激光焊接提供了实时焊接过程监控的方法和装置。在使用双色镜和分束器分割光谱带之后，通过具有单元件检测器的孔径在几个光谱带处测量来自熔池的热辐射。用于激光输送的光纤的远端可以用作孔径，并且每个光谱带信号都用单元件检测器测量。由于成像光学元件的色差，来自单元件检测器通过孔径的视场由光谱带的波长变化。有助于光谱带信号的焊池尺寸随光谱带的波长而变化。每个光谱带的透射率分布也取决于成像光学元件的聚焦偏移。通过处理测量的光谱带信号，可以同时监测焊池的尺寸，工件上的功率变化和成像光学器件的聚焦偏移。此外，预定位置的焊池尺寸与焊接深度和焊接缺陷（例如用于焊接质量保证的焊接间隙）相关。

7. 发明授权

US5652699A High-voltage and high-power stabilized DC power supply using modified sine wave output 3-phase inverter 失效
标题翻译：高压大功率稳压直流电源采用修正正弦波输出三相逆变器
公开(公告)号：US5652699A
公开(公告)日：1997-07-29
申请号：US514505
申请日：1995-08-11
申请人： Jung-Moog Kim , Seung-Kyu Pak , Euo-Chang Jung , Cheol-Jung Kim , Jong-Min Lee
发明人： Jung-Moog Kim , Seung-Kyu Pak , Euo-Chang Jung , Cheol-Jung Kim , Jong-Min Lee
IPC分类号： H02M1/14 , H02M3/28 , H02M7/02 , H02M7/04 , H02M7/12 , H02M7/217 , H02M5/45
CPC分类号： H02M7/217
摘要： A stable DC power system of high-voltage and good-output performance is provided by adding a 3-phase inverter, whereby modified waveform for an output control is produced and a filter to a conventional DC power system and by bridge-rectifying. The modified sinusoidal wave such as a varied wave whose upper portion ranging from 30.degree. to 150.degree. is flat of a 1/2 cycle of the sinusoidal wave, a modified wave whose portions ranging from 30.degree. to 90.degree. and from 90.degree. to 150.degree. are linear in a 1/2 cycle of the sinusoidal wave and a modified wave whose portions ranging from 30.degree. to 90.degree. and from 210.degree. to 270.degree. are recessed so as to be symmetrical with respect to a line in the whole cycle of the sinusoidal wave are used for reducing ripples of the output voltage after the 3-phase rectification.
摘要翻译：通过添加三相逆变器提供高电压和良好输出性能的稳定的直流电力系统，由此产生用于输出控制的修改波形和对常规直流电力系统的滤波器并通过桥式整流。改正的正弦波，如30°至150°的上部变化的波，为+ E的平面，正弦波的1/2 + EE周期，部分范围为30°至90°的修正波 90°至150°在正弦波的+ E，fra 1/2 + EE循环中线性化，部分范围为30°至90°和210°至270°的改性波凹入，以便相对于正弦波整个周期的线对称，用于在三相整流之后减小输出电压的波纹。

8. 发明申请

US20090154334A1 QR DECOMPOSITION APPARATUS AND METHOD FOR MIMO SYSTEM 失效
标题翻译： QR分解装置和MIMO系统的方法
公开(公告)号：US20090154334A1
公开(公告)日：2009-06-18
申请号：US12131617
申请日：2008-06-02
申请人： Yu-Ro LEE , Byung-Chan KIM , Minho CHEONG , Chanho YOON , Je-Hun LEE , Kwhang-Hyun RYU , Cheol-Jung KIM , Tae-Hyun JEON , Sok-Kyu LEE
发明人： Yu-Ro LEE , Byung-Chan KIM , Minho CHEONG , Chanho YOON , Je-Hun LEE , Kwhang-Hyun RYU , Cheol-Jung KIM , Tae-Hyun JEON , Sok-Kyu LEE
IPC分类号： H04J11/00
CPC分类号： H04L25/0246 , H04L25/03006 , H04L2025/03414 , H04L2025/03426
摘要： Provided are a QR decomposition apparatus and method for a MIMO system. The QR decomposition apparatus includes: a norm calculator for calculating a vector size norm for a channel input; a Q column calculator for calculating a column value of a unitary matrix Q by multiplying a delayed channel input with √{square root over (norm)}; an R row calculator for receiving the delayed channel input, the output of the Q column calculator, and 1/√{square root over (norm)}, and calculating a row value of an upper triangular matrix R; a Q update calculator for receiving the delayed channel input, the output of the R row calculator, and a delayed output of the Q column calculator, and calculating a Q update matrix value; and a norm update calculator for receiving a delayed output of the norm calculator and an output of the R row calculator, and outputting a norm update matrix value.
摘要翻译：提供了一种用于MIMO系统的QR分解装置和方法。 QR分解装置包括：用于计算信道输入的矢量大小范数的范数计算器; Q列计算器，用于通过将延迟的信道输入与{平方根超过（norm）}相乘来计算酉矩阵Q的列值; 用于接收延迟信道输入的R行计算器，Q列计算器的输出和1 /√{平方根超过（norm）}，并计算上三角矩阵R的行值; 用于接收延迟信道输入，R行计算器的输出和Q列计算器的延迟输出的Q更新计算器，并计算Q更新矩阵值; 以及范数更新计算器，用于接收范数计算器的延迟输出和R行计算器的输出，并输出范数更新矩阵值。

9. 发明申请

US20050269198A1 Method for isotope separation of thallium 失效
标题翻译：铊同位素分离方法
公开(公告)号：US20050269198A1
公开(公告)日：2005-12-08
申请号：US10522461
申请日：2002-09-18
申请人： Do-Young Jeong , Kwang-Hoon Ko , Gwon Lim , Cheol-Jung Kim
发明人： Do-Young Jeong , Kwang-Hoon Ko , Gwon Lim , Cheol-Jung Kim
IPC分类号： C09C1/00 , B01D59/34 , C01G15/00 , H01S3/00 , B01D5/00
CPC分类号： B01D59/34
摘要： A method for isotope separation of thallium using a laser beam is disclosed. The method comprises the steps of: (a) producing photons of a first frequency by a laser system, wherein said first frequency is about 378 nm; (b) producing photons of a second frequency by said laser systems, wherein said second frequency is about 292 nm; (c) producing photons of a third frequency by said laser system, wherein said third frequency is in the range of 700 nm to 1400 nm; (d) applying said photons of said first, second and third frequencies to said vapor of said thallium, wherein said photons of said first frequency pump isotope-selectively a plurality of ground state thallium atoms through an excited state into a metastable state, and wherein said photons of said second frequency excite a plurality of metastable state thallium atoms to an intermediate, resonant state, and wherein said photons of said third frequency ionize a plurality of atoms in said intermediate, resonant state through continuum states; and (e) collecting said isotope ions. Thallium isotope can efficiently be separated with small scale facilities.
摘要翻译：公开了一种使用激光束同位素分离铊的方法。该方法包括以下步骤：（a）通过激光系统产生第一频率的光子，其中所述第一频率约为378nm; （b）由所述激光系统产生第二频率的光子，其中所述第二频率为约292nm; （c）通过所述激光系统产生第三频率的光子，其中所述第三频率在700nm至1400nm的范围内; （d）将所述第一，第二和第三频率的所述光子施加到所述铊的所述蒸气，其中所述第一频率泵的所述光子同位素选择性地将多个基态铊原子通过激发态转化为亚稳态，并且其中所述第二频率的所述光子将多个亚稳状态铊原子激发到中间的共振状态，并且其中所述第三频率的所述光子以所述中间谐振状态的多个原子通过连续状态离子化; 和（e）收集所述同位素离子。铊同位素可以用小规模的设施有效分离。

10. 发明授权

US06344625B1 Method and apparatus for monitoring the size variation and the focus shift of a weld pool in laser welding 失效
标题翻译：用于监测激光焊接中焊池的尺寸变化和聚焦偏移的方法和装置
公开(公告)号：US06344625B1
公开(公告)日：2002-02-05
申请号：US09589134
申请日：2000-06-08
申请人： Cheol-Jung Kim , Sung-Hoon Baik , Min-Suk Kim , Chin-Man Chung
发明人： Cheol-Jung Kim , Sung-Hoon Baik , Min-Suk Kim , Chin-Man Chung
IPC分类号： B23K2620
CPC分类号： B23K26/032 , B23K26/034 , B23K26/04
摘要： In a laser welding, a laser beam is focused on a workpiece by a focusing lens or lenses. The focusing lens or lenses image an aperture liming the size of the laser beam on the workpiece and the size of focused laser beam is the image size of the aperture on the workpiece at the wavelength of the laser. A weld pool is generated by the interaction of the focused laser beam and the workpiece. Due to the thermal conduction of the workpiece, the size of the weld pool is generally not the same as the size of the focused laser beam and varies with the power of the laser or with the focus shift of the focusing lens or lenses. The weld pool radiates a thermal radiation. An apparatus and method is disclosed wherein the thermal radiation is measured back through the focusing lens or lenses and through the aperture limiting the size of the laser beam or any other aperture limiting a size of the thermal radiation to be measured in at least three spectral bands with single element detectors. Due to the chromatic aberration of the focusing lens or lenses, the transmittance of each spectral band of the thermal radiation varies with the size variation and with the focus position of a weld pool and the spectral band signals measured with single-element detectors vary if the size and/or the focus position of a weld pool varies. Algorithm to monitor the size variation and/or the focus position of a weld pool is disclosed wherein the size variation of a weld pool is monitored independently from the focus shift of the focusing lens or lenses and the focus position of a weld pool is monitored independently from the power variation of the laser.
摘要翻译：在激光焊接中，激光束通过聚焦透镜聚焦在工件上。聚焦透镜或透镜对激光束在工件上的尺寸进行成像，并且聚焦激光束的尺寸是在激光波长处工件上的孔径的图像尺寸。焊池由聚焦激光束与工件的相互作用产生。由于工件的热传导，熔池的尺寸通常与聚焦的激光束的尺寸不同，并随着激光的功率或聚焦透镜的聚焦偏移而变化。焊接池辐射热辐射。公开了一种装置和方法，其中通过聚焦透镜或透镜测量热辐射，并通过孔径限制激光束或任何其它孔径的尺寸，以限制在至少三个光谱带中待测量的热辐射的尺寸与单元素检测器。由于聚焦透镜或透镜的色差，热辐射的每个光谱带的透射率随着尺寸变化和焊池的焦点位置而变化，并且用单元件检测器测量的光谱带信号变化如果焊池的尺寸和/或焦点位置不同。公开了监测焊池的尺寸变化和/或焦点位置的算法，其中独立于聚焦透镜或透镜的聚焦位移监测焊池的尺寸变化，并且独立地监测焊池的聚焦位置从激光的功率变化。

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