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    • 2. 发明授权
    • External diffusion amplifier
    • 外部扩散放大器
    • US09160136B1
    • 2015-10-13
    • US14292546
    • 2014-05-30
    • LEE LASER, INC.
    • Donald BishopDwight Kimberlin
    • H01S3/00H01S3/23H01S3/0941
    • H01S3/2333H01S3/005H01S3/0064H01S3/025H01S3/061H01S3/0612H01S3/0615H01S3/0617H01S3/0621H01S3/0623H01S3/0941H01S3/09415H01S3/1611H01S3/1673H01S3/2341
    • A first amplification structure uses a single pass external diffusion amplifier wherein the picosecond beam cross-sectional area is matched to the cross-sectional area of the gain medium. A half waveplate between the gain medium and the incoming beam optimizes the polarization of the beam diameter to the polarization of the gain medium. A second amplification structure uses a double pass external diffusion amplifier wherein the beam cross-sectional area is matched to the cross-sectional area of the gain medium and passed twice therethrough. A half waveplate and a rotator create a right circular polarized beam through the gain medium and a maximum “R” coated reflector resides beyond the external diffusion amplifier and reflects a left circular polarized beam back through the gain medium, the rotator and the half waveplate where it becomes horizontally polarized and is then transmitted out of the amplification structure by the polarization sensitive beam splitter.
    • 第一放大结构使用单通道外部扩散放大器,其中皮秒波束横截面面积与增益介质的横截面面积相匹配。 增益介质和入射光束之间的半波片将光束直径的极化优化为增益介质的极化。 第二放大结构使用双通道外部扩散放大器,其中光束横截面积与增益介质的横截面面积相匹配并通过两次。 半波片和旋转器通过增益介质产生右圆偏振光束,并且最大“R”涂层反射器位于外扩散放大器之外,并将左圆偏振光束反射回增益介质,旋转器和半波片 它变得水平偏振,然后通过偏振敏感分束器被发射出放大结构。
    • 4. 发明申请
    • LASER DEVICE AND METHOD
    • 激光器件和方法
    • US20140204965A1
    • 2014-07-24
    • US14187308
    • 2014-02-23
    • LEE LASER, INC.
    • DWIGHT KIMBERLINDONALD BISHOP
    • H01S3/127
    • H01S3/127G02B19/0028G02B19/0057G02B27/1006G02B27/1073G02B27/14G02B27/144G02B27/145H01S3/09415H01S3/11H01S3/1611H01S3/1643H01S3/23
    • A laser beam combining and power scaling device and method. A first highly reflective mirror residing perpendicular to the first optical axis reflecting radiation emitted from the first laser head. A first Q-switch in alignment with the first optical axis interposed between the first highly reflective mirror and the first laser head. A second highly reflective mirror residing perpendicular to the second optical axis reflecting radiation emitted from the second laser head. The second Q-switch in alignment with the second optical axis is interposed between the second highly reflective mirror and the first laser head. A third optical axis is coincident with the first optical axis. A third highly reflective mirror residing perpendicular to the third optical axis in alignment therewith. The third optical axis may include a third diode pumped laser head and Q-switch. A beam splitter resides at the intersection of the axes.
    • 激光束组合和功率缩放装置及方法。 第一高反射镜,其垂直于第一光轴垂直,反射从第一激光头发射的辐射。 第一Q开关,其与插入在第一高反射镜和第一激光头之间的第一光轴对准。 第二高反射镜,垂直于第二光轴,反射从第二激光头发出的辐射。 与第二光轴对准的第二Q开关设置在第二高反射镜和第一激光头之间。 第三光轴与第一光轴重合。 第三高反射镜,其垂直于与其对准的第三光轴。 第三光轴可以包括第三二极管泵浦激光头和Q开关。 分束器位于轴的相交处。
    • 5. 发明申请
    • LASER DEVICE AND METHOD
    • 激光器件和方法
    • US20150349484A1
    • 2015-12-03
    • US14822818
    • 2015-08-10
    • LEE LASER, INC.
    • DWIGHT KIMBERLINDONALD BISHOP
    • H01S3/127G02B27/14H01S3/16H01S3/0941H01S3/23
    • H01S3/127G02B19/0028G02B19/0057G02B27/1006G02B27/1073G02B27/14G02B27/144G02B27/145H01S3/09415H01S3/11H01S3/1611H01S3/1643H01S3/23
    • A laser beam combining and power scaling device and method. A first highly reflective mirror residing perpendicular to the first optical axis reflecting radiation emitted from the first laser head. A first Q-switch in alignment with the first optical axis interposed between the first highly reflective mirror and the first laser head. A second highly reflective mirror residing perpendicular to the second optical axis reflecting radiation emitted from the second laser head. The second Q-switch in alignment with the second optical axis is interposed between the second highly reflective mirror and the first laser head. A third optical axis is coincident with the first optical axis. A third highly reflective mirror residing perpendicular to the third optical axis in alignment therewith. The third optical axis may include a third diode pumped laser head and Q-switch. A beam splitter resides at the intersection of the axes.
    • 激光束组合和功率缩放装置及方法。 第一高反射镜,其垂直于第一光轴垂直,反射从第一激光头发射的辐射。 第一Q开关,其与插入在第一高反射镜和第一激光头之间的第一光轴对准。 第二高反射镜,垂直于第二光轴,反射从第二激光头发出的辐射。 与第二光轴对准的第二Q开关设置在第二高反射镜和第一激光头之间。 第三光轴与第一光轴重合。 第三高反射镜,其垂直于与其对准的第三光轴。 第三光轴可以包括第三二极管泵浦激光头和Q开关。 分束器位于轴的相交处。
    • 6. 发明授权
    • Laser device and method
    • 激光装置及方法
    • US08693511B2
    • 2014-04-08
    • US13932180
    • 2013-07-01
    • Lee Laser, Inc.
    • Dwight KimberlinDonald Bishop
    • H01S3/082H01S3/11
    • H01S3/127G02B19/0028G02B19/0057G02B27/1006G02B27/1073G02B27/14G02B27/144G02B27/145H01S3/09415H01S3/11H01S3/1611H01S3/1643H01S3/23
    • A laser beam combining and power scaling device and method. A first highly reflective mirror residing perpendicular to the first optical axis reflecting radiation emitted from the first laser head. A first Q-switch in alignment with the first optical axis interposed between the first highly reflective mirror and the first laser head. A second highly reflective mirror residing perpendicular to the second optical axis reflecting radiation emitted from the second laser head. The second Q-switch in alignment with the second optical axis is interposed between the second highly reflective mirror and the first laser head. A third optical axis is coincident with the first optical axis. A third highly reflective mirror residing perpendicular to the third optical axis in alignment therewith. The third optical axis may include a third diode pumped laser head and Q-switch. A beam splitter resides at the intersection of the axes.
    • 激光束组合和功率缩放装置及方法。 第一高反射镜,其垂直于第一光轴垂直,反射从第一激光头发射的辐射。 第一Q开关,其与插入在第一高反射镜和第一激光头之间的第一光轴对准。 第二高反射镜,垂直于第二光轴,反射从第二激光头发出的辐射。 与第二光轴对准的第二Q开关置于第二高反射镜和第一激光头之间。 第三光轴与第一光轴重合。 第三高反射镜,其垂直于与其对准的第三光轴。 第三光轴可以包括第三二极管泵浦激光头和Q开关。 分束器位于轴的相交处。
    • 7. 发明授权
    • Laser device and method
    • 激光装置及方法
    • US09106054B2
    • 2015-08-11
    • US14187308
    • 2014-02-23
    • LEE LASER, INC.
    • Dwight KimberlinDonald Bishop
    • H01S3/127G02B27/10G02B27/14G02B19/00H01S3/0941H01S3/11H01S3/16H01S3/23
    • H01S3/127G02B19/0028G02B19/0057G02B27/1006G02B27/1073G02B27/14G02B27/144G02B27/145H01S3/09415H01S3/11H01S3/1611H01S3/1643H01S3/23
    • A laser beam combining and power scaling device and method. A first highly reflective mirror residing perpendicular to the first optical axis reflecting radiation emitted from the first laser head. A first Q-switch in alignment with the first optical axis interposed between the first highly reflective mirror and the first laser head. A second highly reflective mirror residing perpendicular to the second optical axis reflecting radiation emitted from the second laser head. The second Q-switch in alignment with the second optical axis is interposed between the second highly reflective mirror and the first laser head. A third optical axis is coincident with the first optical axis. A third highly reflective mirror residing perpendicular to the third optical axis in alignment therewith. The third optical axis may include a third diode pumped laser head and Q-switch. A beam splitter resides at the intersection of the axes.
    • 激光束组合和功率缩放装置及方法。 第一高反射镜,其垂直于第一光轴垂直,反射从第一激光头发射的辐射。 第一Q开关,其与插入在第一高反射镜和第一激光头之间的第一光轴对准。 第二高反射镜,垂直于第二光轴,反射从第二激光头发出的辐射。 与第二光轴对准的第二Q开关设置在第二高反射镜和第一激光头之间。 第三光轴与第一光轴重合。 第三高反射镜,其垂直于与其对准的第三光轴。 第三光轴可以包括第三二极管泵浦激光头和Q开关。 分束器位于轴的相交处。