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    • 2. 发明申请
    • Lasers for synchronized pulse shape tailoring
    • 激光同步脉冲形状裁剪
    • US20060126674A1
    • 2006-06-15
    • US11067470
    • 2005-02-25
    • Yunlong SunLei Sun
    • Yunlong SunLei Sun
    • H01S3/11
    • H01S3/082B23K26/0622H01S3/07H01S3/0805H01S3/08086H01S3/083H01S3/10038H01S3/10046H01S3/109H01S3/117H01S3/127H01S3/1611
    • A plurality of subresonators (12, 14), having different design configurations, share a common resonator section (18) such that the lasing action can be substantially synchronized to provide coherent laser pulses that merge the different respective pulse energy profile and/or pulse width characteristics imparted by the configurations of the subresonators (12, 14). The subresonators (12, 14) may share a laser medium (42) in the common section, or each distinct subresonator section (28, 36) may have its own laser medium (42). Exemplary long and short subresonators (12, 14) generate specially tailored laser pulses having a short rise time and a long pulse width at one wavelength or two different wavelengths that may be beneficial for a variety of laser and micromachining applications including memory link processing.
    • 具有不同设计配置的多个子共振器(12,14)共享公共谐振器部分(18),使得激光作用可以基本上同步,以提供合并不同的相应脉冲能量分布和/或脉冲宽度的相干激光脉冲 通过子共振器(12,14)的构造赋予的特性。 子共振器(12,14)可以在公共部分中共享激光介质(42),或者每个不同的子谐振器部分(28,36)可以具有其自己的激光介质(42)。 示例性的长和短子谐振器(12,14)产生特定定制的激光脉冲,其具有在一个波长或两个不同波长处具有短的上升时间和长脉冲宽度,这可能对于包括存储器链路处理的各种激光和微加工应用有利。
    • 4. 发明授权
    • Laser pulse picking employing controlled AOM loading
    • 激光脉冲拾取采用受控的AOM装载
    • US06947454B2
    • 2005-09-20
    • US10611798
    • 2003-06-30
    • Yunlong SunBrady E. NilsenDavid M. HemenwayLei Sun
    • Yunlong SunBrady E. NilsenDavid M. HemenwayLei Sun
    • B23K26/06H01S3/10
    • B23K26/06
    • A laser (126) and an AOM (10) are pulsed at substantially regular and substantially similar constant high repetition rates to provide working laser outputs (40) with variable nonimpingement intervals (50) without sacrificing laser pulse-to-pulse energy stability. When a working laser output (40) is demanded, an RF pulse (38) is applied to the AOM (10) in coincidence with the laser output (24) to transmit it to a target. When no working laser output (40) is demanded, an RF pulse (38) is applied to the AOM (10) in noncoincidence with the laser output (24) so it gets blocked. So the average thermal loading on the AOM (10) remains substantially constant regardless of how randomly the working laser outputs (40) are demanded. The AOM (10) can also be used to control the energy of the working laser output (40) by controlling the power of the RF pulse (38) applied. When the RF power is changed, the RF duration (44) of the RF pulse (38) is modified to maintain the constant average RF power. Consistent loading on the AOM (10) eliminates deterioration of laser beam quality and laser beam pointing accuracy associated with thermal loading variation on the AOM (10) and is advantageous for applications such as IC chip link processing where stable working laser outputs (40) with variable output intervals (50) are needed.
    • 激光器(126)和AOM(10)以基本上规则和基本类似的恒定高重复率脉冲,以提供具有可变非限制间隔(50)的工作激光输出(40),而不牺牲激光脉冲到脉冲能量稳定性。 当要求工作的激光输出(40)时,与激光输出(24)一致地向AOM(10)施加RF脉冲(38)以将其发射到目标。 当不需要工作的激光输出(40)时,RF激光(38)以与激光输出(24)不一致的方式施加到AOM(10),使其被阻塞。 因此,无论工作激光输出(40)如何随机地要求,AOM(10)上的平均热负载保持基本恒定。 AOM(10)也可用于通过控制所施加的RF脉冲(38)的功率来控制工作激光器输出(40)的能量。 当RF功率改变时,RF脉冲(38)的RF持续时间(44)被修改以保持恒定的平均RF功率。 AOM(10)上的一致负载消除了与AOM(10)上的热负载变化相关的激光束质量和激光束指向精度的劣化,并且对于诸如IC芯片链接处理的应用是有利的,其中稳定的工作激光输出(40)与 需要可变输出间隔(50)。
    • 5. 发明授权
    • Methods for synchronized pulse shape tailoring
    • 同步脉冲形状裁剪方法
    • US07301981B2
    • 2007-11-27
    • US11067319
    • 2005-02-25
    • Yunlong SunLei Sun
    • Yunlong SunLei Sun
    • H01S3/082
    • H01S3/082B23K26/0622H01S3/07H01S3/0805H01S3/08086H01S3/083H01S3/10038H01S3/10046H01S3/109H01S3/117H01S3/127H01S3/1611
    • A plurality of subresonators (12, 14), having different design configurations, share a common resonator section (18) such that the lasing action can be substantially synchronized to provide coherent laser pulses that merge the different respective pulse energy profile and/or pulse width characteristics imparted by the configurations of the subresonators (12, 14). The subresonators (12, 14) may share a laser medium (42) in the common section, or each distinct subresonator section (28, 36) may have its own laser medium (42). Exemplary long and short subresonators (12, 14) generate specially tailored laser pulses having a short rise time and a long pulse width at one wavelength or two different wavelengths that may be beneficial for a variety of laser and micromachining applications including memory link processing.
    • 具有不同设计配置的多个子共振器(12,14)共享公共谐振器部分(18),使得激光作用可以基本上同步,以提供合并不同的相应脉冲能量分布和/或脉冲宽度的相干激光脉冲 通过子共振器(12,14)的构造赋予的特性。 子共振器(12,14)可以在公共部分中共享激光介质(42),或者每个不同的子谐振器部分(28,36)可以具有其自己的激光介质(42)。 示例性的长和短子谐振器(12,14)产生特定定制的激光脉冲,其具有在一个波长或两个不同波长处具有短的上升时间和长脉冲宽度,这可能对于包括存储器链路处理的各种激光和微加工应用有利。
    • 6. 发明申请
    • Methods for synchronized pulse shape tailoring
    • 同步脉冲形状裁剪方法
    • US20060126678A1
    • 2006-06-15
    • US11067319
    • 2005-02-25
    • Yunlong SunLei Sun
    • Yunlong SunLei Sun
    • H01S3/13
    • H01S3/082B23K26/0622H01S3/07H01S3/0805H01S3/08086H01S3/083H01S3/10038H01S3/10046H01S3/109H01S3/117H01S3/127H01S3/1611
    • A plurality of subresonators (12, 14), having different design configurations, share a common resonator section (18) such that the lasing action can be substantially synchronized to provide coherent laser pulses that merge the different respective pulse energy profile and/or pulse width characteristics imparted by the configurations of the subresonators (12, 14). The subresonators (12, 14) may share a laser medium (42) in the common section, or each distinct subresonator section (28, 36) may have its own laser medium (42). Exemplary long and short subresonators (12, 14) generate specially tailored laser pulses having a short rise time and a long pulse width at one wavelength or two different wavelengths that may be beneficial for a variety of laser and micromachining applications including memory link processing.
    • 具有不同设计配置的多个子共振器(12,14)共享公共谐振器部分(18),使得激光作用可以基本上同步,以提供合并不同的相应脉冲能量分布和/或脉冲宽度的相干激光脉冲 通过子共振器(12,14)的构造赋予的特性。 子共振器(12,14)可以在公共部分中共享激光介质(42),或者每个不同的子谐振器部分(28,36)可以具有其自己的激光介质(42)。 示例性的长和短子谐振器(12,14)产生特定定制的激光脉冲,其具有在一个波长或两个不同波长处具有短的上升时间和长脉冲宽度,这可能对于包括存储器链路处理的各种激光和微加工应用有利。
    • 10. 发明授权
    • Lasers for synchronized pulse shape tailoring
    • 激光同步脉冲形状裁剪
    • US07289549B2
    • 2007-10-30
    • US11067470
    • 2005-02-25
    • Yunlong SunLei Sun
    • Yunlong SunLei Sun
    • H01S3/082
    • H01S3/082B23K26/0622H01S3/07H01S3/0805H01S3/08086H01S3/083H01S3/10038H01S3/10046H01S3/109H01S3/117H01S3/127H01S3/1611
    • A plurality of subresonators (12, 14), having different design configurations, share a common resonator section (18) such that the lasing action can be substantially synchronized to provide coherent laser pulses that merge the different respective pulse energy profile and/or pulse width characteristics imparted by the configurations of the subresonators (12, 14). The subresonators (12, 14) may share a laser medium (42) in the common section, or each distinct subresonator section (28, 36) may have its own laser medium (42). Exemplary long and short subresonators (12, 14) generate specially tailored laser pulses having a short rise time and a long pulse width at one wavelength or two different wavelengths that may be beneficial for a variety of laser and micromachining applications including memory link processing.
    • 具有不同设计配置的多个子共振器(12,14)共享公共谐振器部分(18),使得激光作用可以基本上同步,以提供合并不同的相应脉冲能量分布和/或脉冲宽度的相干激光脉冲 通过子共振器(12,14)的构造赋予的特性。 子共振器(12,14)可以在公共部分中共享激光介质(42),或者每个不同的子谐振器部分(28,36)可以具有其自己的激光介质(42)。 示例性的长和短子谐振器(12,14)产生特定定制的激光脉冲,其具有在一个波长或两个不同波长处具有短的上升时间和长脉冲宽度,这可能对于包括存储器链路处理的各种激光和微加工应用有利。