公开(公告)号：US20160094011A1

公开(公告)日：2016-03-31

申请号：US14859122

申请日：2015-09-18

Applicant: KLA-Tencor Corporation

Inventor： Yujun Deng ,  J. Joseph Armstrong ,  Yung-Ho Alex Chuang ,  Vladimir Dribinski ,  John Fielden

IPC: H01S3/137 ,  G01J1/44 ,  G01J1/04 ,  H01S3/16 ,  H01S3/00

CPC classification number: H01S3/137 ,  G01J1/04 ,  G01J1/0411 ,  G01J1/44 ,  G01J2001/4238 ,  G02F1/37 ,  H01S3/005 ,  H01S3/0057 ,  H01S3/0092 ,  H01S3/1611 ,  H01S3/1643 ,  H01S3/1671 ,  H01S2301/08

Abstract: A pulsed UV laser assembly includes a partial reflector or beam splitter that divides each fundamental pulse into two sub-pulses and directs one sub-pulse to one end of a Bragg grating and the other pulse to the other end of the Bragg grating (or another Bragg grating) such that both sub-pulses are stretched and receive opposing (positive and negative) frequency chirps. The two stretched sub-pulses are combined to generate sum frequency light having a narrower bandwidth than could be obtained by second-harmonic generation directly from the fundamental. UV wavelengths may be generated directly from the sum frequency light or from a harmonic conversion scheme incorporating the sum frequency light. The UV laser may further incorporate other bandwidth reducing schemes. The pulsed UV laser may be used in an inspection or metrology system.

Abstract translation: 脉冲UV激光器组件包括部分反射器或分束器，其将每个基本脉冲分成两个子脉冲，并将一个子脉冲引导到布拉格光栅的一端，将另一个脉冲引导到布拉格光栅的另一端（或另一个 布拉格光栅），使得两个子脉冲都被拉伸并接收相对（正和负）频率的线性调频脉冲。 两个延伸的子脉冲被组合以产生具有比通过直接从基波的二次谐波产生可以获得的窄带宽的和频光。 紫外波长可以直接从和频光或从包含和频光的谐波转换方案中产生。 UV激光器可以进一步并入其他带宽减小方案。 脉冲UV激光可用于检测或计量系统。

公开(公告)号：US09059560B2

公开(公告)日：2015-06-16

申请号：US14213835

申请日：2014-03-14

Applicant: KLA-Tencor Corporation

Inventor： Vladimir Dribinski ,  Yung-Ho Chuang

IPC: H01S3/091 ,  G02F1/35 ,  H01S3/00

CPC classification number: H01S3/10 ,  G02F1/3525 ,  H01S3/005 ,  H01S3/091

Abstract: Laser-induced damage in an optical material can be mitigated by creating conditions at which light absorption is minimized. Specifically, electrons populating defect energy levels of a band gap in an optical material can be promoted to the conduction band—a process commonly referred to as bleaching. Such bleaching can be accomplished using a predetermined wavelength that ensures minimum energy deposition into the material, ideally promoting electron to just inside the conduction band. In some cases phonon (i.e. thermal) excitation can also be used to achieve higher depopulation rates. In one embodiment, a bleaching light beam having a wavelength longer than that of the laser beam can be combined with the laser beam to depopulate the defect energy levels in the band gap. The bleaching light beam can be propagated in the same direction or intersect the laser beam.

Abstract translation: 可以通过产生光吸收最小化的条件来减轻光学材料中的激光诱导的损伤。 具体地说，填充光学材料中的带隙的缺陷能级的电子能够促进通常被称为漂白的传导带。 这样的漂白可以使用确保最小能量沉积到材料中的预定波长来实现，理想地促进电子刚好在导带内部。 在某些情况下，也可以使用声子（即热）激发来实现更高的人口流动率。 在一个实施例中，具有比激光束长的波长的波长的漂白光束可以与激光束组合以对带隙中的缺陷能级进行衰减。 漂白光束可以沿相同方向传播或与激光束相交。

公开(公告)号：US20150022805A1

公开(公告)日：2015-01-22

申请号：US14507758

申请日：2014-10-06

Applicant: KLA-Tencor Corporation

Inventor： Vladimir Dribinski ,  Yung-Ho Alex Chuang ,  J. Joseph Armstrong ,  John Fielden

IPC: G01N21/88 ,  G01N21/94

CPC classification number: H01S5/0092 ,  C03B33/02 ,  C30B1/02 ,  C30B29/10 ,  C30B29/14 ,  C30B29/22 ,  C30B29/30 ,  C30B33/02 ,  G01N21/88 ,  G01N21/8806 ,  G01N21/94 ,  G01N21/9501 ,  G01N2201/06113 ,  G01N2201/0637 ,  G01N2201/068 ,  G02F1/353 ,  G02F1/3551 ,  G02F1/3553 ,  G02F1/37 ,  G02F2001/3505 ,  G02F2001/3507 ,  G02F2001/354 ,  G02F2202/20 ,  H01S3/0092 ,  H01S3/10 ,  H01S3/10038 ,  H01S3/10046 ,  H01S3/11

Abstract: An optical system for detecting contaminants and defects on a test surface includes an improved laser system for generating a laser beam and optics directing the laser beam along a path onto the test surface, and producing an illuminated spot thereon. A detector and ellipsoidal mirrored surface are also provided with an axis of symmetry about a line perpendicular to the test surface. In one embodiment, an optical system for detecting anomalies of a sample includes the improved laser system for generating first and second beams, first optics for directing the first beam of radiation onto a first spot on the sample, second optics for directing the second beam onto a second spot on the sample, with the first and second paths at different angles of incidence to the sample surface. In another embodiment, a surface inspection apparatus includes an illumination system configured to focus beams at non-normal incidence angles.

Abstract translation: 用于检测测试表面上的污染物和缺陷的光学系统包括用于产生激光束的改进的激光系统和将激光束沿着路径引导到测试表面上并在其上产生照明点的光学系统。 检测器和椭圆形镜面也具有围绕垂直于测试表面的线的对称轴。 在一个实施例中，用于检测样本异常的光学系统包括用于产生第一和第二光束的改进的激光系统，用于将第一辐射束引导到样品上的第一光点上的第一光学器件，用于将第二光束引导到 样品上的第二个点，第一和第二个路径与样品表面的入射角不同。 在另一个实施例中，表面检查装置包括被配置为以非正常入射角聚焦光束的照明系统。

公开(公告)号：US20140226140A1

公开(公告)日：2014-08-14

申请号：US14170384

申请日：2014-01-31

Applicant: KLA-Tencor Corporation

Inventor： Yung-Ho Chuang ,  J. Joseph Armstrong ,  Yujun Deng ,  Justin Dianhuan Liou ,  Vladimir Dribinski ,  John Fielden

IPC: G02B17/08 ,  G01N21/88 ,  H01S3/109

CPC classification number: H01S3/302 ,  G01N21/9501 ,  G02B17/0892 ,  G02F1/353 ,  G02F1/395 ,  G02F2001/354 ,  H01S3/005 ,  H01S3/0092 ,  H01S3/067 ,  H01S3/06754 ,  H01S3/10053 ,  H01S3/11 ,  H01S3/16 ,  H01S3/1643 ,  H01S3/1666 ,  H01S3/23 ,  H01S3/2308

Abstract: An improved solid-state laser for generating sub-200 nm light is described. This laser uses a fundamental wavelength between about 1030 nm and 1065 nm to generate the sub-200 nm light. The final frequency conversion stage of the laser creates the sub-200 nm light by mixing a wavelength of approximately 1109 nm with a wavelength of approximately 234 nm. By proper selection of non-linear media, such mixing can be achieved by nearly non-critical phase matching. This mixing results in high conversion efficiency, good stability, and high reliability.

Abstract translation: 描述了用于产生亚200nm光的改进的固态激光器。 该激光器使用约1030nm和1065nm之间的基本波长来产生亚200nm的光。 激光的最终变频阶段通过将约1109nm的波长与约234nm的波长混合而产生亚200nm的光。 通过适当选择非线性介质，可以通过几乎非关键的相位匹配来实现这种混合。 这种混合导致高转换效率，良好的稳定性和高可靠性。

公开(公告)号：US09608399B2

公开(公告)日：2017-03-28

申请号：US14210355

申请日：2014-03-13

Applicant: KLA-Tencor Corporation

Inventor： Yung-Ho Chuang ,  J. Joseph Armstrong ,  Justin Dianhuan Liou ,  Vladimir Dribinski ,  John Fielden

IPC: H01S3/23 ,  G01N21/47 ,  G01N21/95 ,  H01S3/30 ,  G02F1/35 ,  G01N21/88 ,  H01S3/06 ,  H01S3/067 ,  H01S3/0941 ,  H01S3/16 ,  H01S3/00

CPC classification number: H01S3/2308 ,  G01N21/47 ,  G01N21/8806 ,  G01N21/9501 ,  G02F1/353 ,  G02F2001/3507 ,  G02F2001/354 ,  H01S3/0078 ,  H01S3/0092 ,  H01S3/0602 ,  H01S3/06708 ,  H01S3/06758 ,  H01S3/09415 ,  H01S3/1618 ,  H01S3/2375 ,  H01S3/302

Abstract: An improved laser uses a pump laser with a wavelength near 1109 nm and a fundamental wavelength near 1171 nm to generate light at a wavelength between approximately 189 nm and approximately 200 nm, e.g. 193 nm. The laser mixes the 1109 nm pump wavelength with the 5th harmonic of the 1171 nm fundamental, which is at a wavelength of approximately 234.2 nm. By proper selection of non-linear media, such mixing can be achieved by nearly non-critical phase matching. This mixing results in high conversion efficiency, good stability, and high reliability.

公开(公告)号：US09461435B2

公开(公告)日：2016-10-04

申请号：US14688975

申请日：2015-04-16

Applicant: KLA-Tencor Corporation

Inventor： Vladimir Dribinski ,  Yung-Ho Alex Chuang

IPC: H01S3/10 ,  G02F1/35 ,  H01S3/091 ,  H01S3/00

CPC classification number: H01S3/10 ,  G02F1/3525 ,  H01S3/005 ,  H01S3/091

Abstract: Laser-induced damage in an optical material can be mitigated by creating conditions at which light absorption is minimized. Specifically, electrons populating defect energy levels of a band gap in an optical material can be promoted to the conduction band—a process commonly referred to as bleaching. Such bleaching can be accomplished using a predetermined wavelength that ensures minimum energy deposition into the material, ideally promoting electron to just inside the conduction band. In some cases phonon (i.e. thermal) excitation can also be used to achieve higher depopulation rates. In one embodiment, a bleaching light beam having a wavelength longer than that of the laser beam can be combined with the laser beam to depopulate the defect energy levels in the band gap. The bleaching light beam can be propagated in the same direction or intersect the laser beam.

公开(公告)号：US20160285223A1

公开(公告)日：2016-09-29

申请号：US15176346

申请日：2016-06-08

Applicant: KLA-Tencor Corporation

Inventor： Yung-Ho Chuang ,  J. Joseph Armstrong ,  Justin Dianhuan Liou ,  Vladimir Dribinski ,  David L. Brown

IPC: H01S3/00 ,  G01N21/95 ,  G02B5/08 ,  G01N21/21 ,  G02B27/28 ,  G02B5/30

CPC classification number: H01S3/0057 ,  G01N21/21 ,  G01N21/9501 ,  G01N2201/06113 ,  G01N2201/0683 ,  G01N2201/0697 ,  G02B5/0816 ,  G02B5/3083 ,  G02B27/281 ,  G02B27/283 ,  G02B27/286 ,  H01S3/083

Abstract: A pulse multiplier includes a polarizing beam splitter, a wave plate, and a set of multi-surface reflecting components (e.g., one or more etalons and one or more mirrors). The polarizing beam splitter passes input laser pulses through the wave plate to the multi-surface reflecting components, which reflect portions of each input laser pulse back through the wave plate to the polarizing beam splitter. The polarizing beam splitter reflects each reflected portion to form an output of the pulse multiplier. The multi-surface reflecting components are configured such that the output pulses exiting the pulse multiplier have an output repetition pulse frequency rate that is at least double the input repetition pulse frequency.

Abstract translation: 脉冲倍增器包括偏振分束器，波片和一组多表面反射分量（例如，一个或多个标准具和一个或多个反射镜）。 偏振分束器将输入的激光脉冲通过波片传递到多表面反射分量，其将每个输入激光脉冲的部分反射通过波片到偏振分束器。 偏振分束器反射每个反射部分以形成脉冲乘法器的输出。 多表面反射部件被配置为使得离开脉冲乘法器的输出脉冲的输出重复脉冲频率至少是输入重复脉冲频率的两倍。

公开(公告)号：US09419407B2

公开(公告)日：2016-08-16

申请号：US14859122

申请日：2015-09-18

Applicant: KLA-Tencor Corporation

Inventor： Yujun Deng ,  J. Joseph Armstrong ,  Yung-Ho Alex Chuang ,  Vladimir Dribinski ,  John Fielden

IPC: G01J1/42 ,  H01S3/137 ,  G01J1/44 ,  H01S3/00 ,  H01S3/16 ,  G01J1/04

CPC classification number: H01S3/137 ,  G01J1/04 ,  G01J1/0411 ,  G01J1/44 ,  G01J2001/4238 ,  G02F1/37 ,  H01S3/005 ,  H01S3/0057 ,  H01S3/0092 ,  H01S3/1611 ,  H01S3/1643 ,  H01S3/1671 ,  H01S2301/08

Abstract: A pulsed UV laser assembly includes a partial reflector or beam splitter that divides each fundamental pulse into two sub-pulses and directs one sub-pulse to one end of a Bragg grating and the other pulse to the other end of the Bragg grating (or another Bragg grating) such that both sub-pulses are stretched and receive opposing (positive and negative) frequency chirps. The two stretched sub-pulses are combined to generate sum frequency light having a narrower bandwidth than could be obtained by second-harmonic generation directly from the fundamental. UV wavelengths may be generated directly from the sum frequency light or from a harmonic conversion scheme incorporating the sum frequency light. The UV laser may further incorporate other bandwidth reducing schemes. The pulsed UV laser may be used in an inspection or metrology system.

Abstract translation: 脉冲UV激光器组件包括部分反射器或分束器，其将每个基本脉冲分成两个子脉冲，并将一个子脉冲引导到布拉格光栅的一端，将另一个脉冲引导到布拉格光栅的另一端（或另一个 布拉格光栅），使得两个子脉冲都被拉伸并接收相对（正和负）频率的线性调频脉冲。 两个延伸的子脉冲被组合以产生具有比通过直接从基波的二次谐波产生可以获得的窄带宽的和频光。 紫外波长可以直接从和频光或从包含和频光的谐波转换方案中产生。 UV激光器可以进一步并入其他带宽减小方案。 脉冲UV激光可用于检测或计量系统。

公开(公告)号：US09413134B2

公开(公告)日：2016-08-09

申请号：US14753275

申请日：2015-06-29

Applicant: KLA-Tencor Corporation

Inventor： Vladimir Dribinski ,  Yung-Ho Alex Chuang ,  J. Joseph Armstrong

IPC: H01S3/10 ,  H01S5/00 ,  H01S3/11 ,  G02F1/37 ,  H01S3/00 ,  C30B29/10 ,  C30B33/02 ,  G01N21/88 ,  G01N21/94 ,  G01N21/95 ,  C03B33/02 ,  C30B1/02 ,  C30B29/14 ,  C30B29/22 ,  C30B29/30 ,  G02F1/35 ,  G02F1/355

CPC classification number: H01S5/0092 ,  C03B33/02 ,  C30B1/02 ,  C30B29/10 ,  C30B29/14 ,  C30B29/22 ,  C30B29/30 ,  C30B33/02 ,  G01N21/88 ,  G01N21/8806 ,  G01N21/94 ,  G01N21/9501 ,  G01N2201/06113 ,  G01N2201/0637 ,  G01N2201/068 ,  G02F1/353 ,  G02F1/3551 ,  G02F1/3553 ,  G02F1/37 ,  G02F2001/3505 ,  G02F2001/3507 ,  G02F2001/354 ,  G02F2202/20 ,  H01S3/0092 ,  H01S3/10 ,  H01S3/10038 ,  H01S3/10046 ,  H01S3/11

Abstract: A frequency-conversion crystal annealing process includes a first ramp-up period (e.g., increasing the crystal's temperature to a first set point in the range of 100° C. to 150° C. over about 2 hours), a first fixed temperature period (e.g., maintaining at the first set point for 10 to 20 hours), a second ramp-up period (e.g., increasing from the first set point to a second set point above 150° C. over about 1 hour or more), a second fixed period (e.g., maintaining at the second set point for 48 to 300 hours), and then a temperature ramp-down period (e.g., decreasing from the second set point to room temperature over about 3 hours). Transitions from the first and second fixed temperature periods are optionally determined by —OH bonds absorption levels that are measured using Fourier transform infrared spectroscopy, e.g., by monitoring the absorption of —OH bonds (including H2O) near 3580 cm−1 in the infra-red spectrum.

Abstract translation: 频率转换晶体退火处理包括第一斜坡上升​​周期（例如，在约2小时内将晶体的温度提高到在100℃至150℃的范围内的第一设定点），第一固定温度周期 （例如，在第一设定点保持10至20小时），第二加速时间段（例如，在大约1小时或更长时间内从第一设定点增加到高于150℃的第二设定点），a 第二固定时间（例如，在第二设定点保持48至300小时），然后温度降低时间（例如，从大约3小时的第二设定点降低到室温）。 从第一和第二固定温度周期的转变可任选地由使用傅立叶变换红外光谱法测量的-OH键吸收水平确定，例如通过监测基底内的3580cm-1附近的-OH键（包括H 2 O）的吸收， 红色光谱。

公开(公告)号：US09318869B2

公开(公告)日：2016-04-19

申请号：US14586646

申请日：2014-12-30

Applicant: KLA-Tencor Corporation

Inventor： Yung-Ho Chuang ,  J. Joseph Armstrong ,  Vladimir Dribinski ,  Yujun Deng ,  John Fielden

IPC: H01S3/30 ,  H01S3/108 ,  H01S3/00 ,  H01S3/067 ,  H01S3/06 ,  G01N21/95 ,  G01N21/84 ,  G01N21/956

CPC classification number: H01S3/1083 ,  G01N21/84 ,  G01N21/9501 ,  G01N21/956 ,  G01N2021/95676 ,  G02F1/3534 ,  G02F1/3536 ,  G02F1/39 ,  G02F2001/3507 ,  G02F2201/16 ,  H01S3/0078 ,  H01S3/0092 ,  H01S3/0602 ,  H01S3/067

Abstract: A laser for generating an output wavelength of approximately 193.4 nm includes a fundamental laser, an optical parametric generator, a fourth harmonic generator, and a frequency mixing module. The optical parametric generator, which is coupled to the fundamental laser, can generate a down-converted signal. The fourth harmonic generator, which may be coupled to the optical parametric generator or the fundamental laser, can generate a fourth harmonic. The frequency mixing module, which is coupled to the optical parametric generator and the fourth harmonic generator, can generate a laser output at a frequency equal to a sum of the fourth harmonic and twice a frequency of the down-converted signal.

Abstract translation: 用于产生约193.4nm的输出波长的激光器包括基本激光器，光参量发生器，第四谐波发生器和混频模块。 耦合到基本激光器的光学参数发生器可以产生下变频信号。 可以耦合到光学参数发生器或基本激光器的第四谐波发生器可以产生四次谐波。 耦合到光参量发生器和第四谐波发生器的混频模块可产生频率等于下变频信号频率的四次谐波和两倍的频率的激光输出。