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    • 1. 发明申请
    • FIBER LASER SYSTEM
    • 光纤激光系统
    • US20120147909A1
    • 2012-06-14
    • US13017053
    • 2011-01-31
    • Tzong-Yow TsaiShih-Ting LinHong-Xi TsaoChih-Lin Wang
    • Tzong-Yow TsaiShih-Ting LinHong-Xi TsaoChih-Lin Wang
    • H01S3/30
    • H01S3/0675H01S3/06729H01S3/07H01S3/0809H01S3/094042H01S3/09415H01S3/113H01S3/1618
    • A fiber laser system including a laser pumping source, first and second wavelength reflectors, first and second gain fibers, and first and second long wavelength reflectors is provided. The laser pumping source is adapted to emit a pumping beam. The first wavelength reflector is coupled to the laser pumping source. The first gain fiber is coupled between the first and the second wavelength reflectors. The first long wavelength reflector is coupled between the first gain fiber and the second wavelength reflector. The second long wavelength reflector is coupled between the first long wavelength reflector and the second wavelength reflector. The second gain fiber is coupled between the first and the second long wavelength reflectors. The diameter of the core of the first gain fiber is greater than the diameter of the core of the second gain fiber.
    • 提供了包括激光泵浦源,第一和第二波长反射器,第一和第二增益光纤以及第一和第二长波长反射器的光纤激光器系统。 激光泵浦源适于发射泵浦光束。 第一波长反射器耦合到激光泵浦源。 第一增益光纤耦合在第一和第二波长反射器之间。 第一长波长反射器耦合在第一增益光纤与第二波长反射器之间。 第二长波长反射器耦合在第一长波长反射器和第二波长反射器之间。 第二增益光纤耦合在第一和第二长波长反射器之间。 第一增益光纤的芯的直径大于第二增益光纤的芯的直径。
    • 2. 发明授权
    • Fiber laser system
    • 光纤激光系统
    • US08311065B2
    • 2012-11-13
    • US13017053
    • 2011-01-31
    • Tzong-Yow TsaiShih-Ting LinHong-Xi TsaoChih-Lin Wang
    • Tzong-Yow TsaiShih-Ting LinHong-Xi TsaoChih-Lin Wang
    • H01S3/30
    • H01S3/0675H01S3/06729H01S3/07H01S3/0809H01S3/094042H01S3/09415H01S3/113H01S3/1618
    • A fiber laser system including a laser pumping source, first and second wavelength reflectors, first and second gain fibers, and first and second long wavelength reflectors is provided. The laser pumping source is adapted to emit a pumping beam. The first wavelength reflector is coupled to the laser pumping source. The first gain fiber is coupled between the first and the second wavelength reflectors. The first long wavelength reflector is coupled between the first gain fiber and the second wavelength reflector. The second long wavelength reflector is coupled between the first long wavelength reflector and the second wavelength reflector. The second gain fiber is coupled between the first and the second long wavelength reflectors. The diameter of the core of the first gain fiber is greater than the diameter of the core of the second gain fiber.
    • 提供了包括激光泵浦源,第一和第二波长反射器,第一和第二增益光纤以及第一和第二长波长反射器的光纤激光器系统。 激光泵浦源适于发射泵浦光束。 第一波长反射器耦合到激光泵浦源。 第一增益光纤耦合在第一和第二波长反射器之间。 第一长波长反射器耦合在第一增益光纤和第二波长反射器之间。 第二长波长反射器耦合在第一长波长反射器和第二波长反射器之间。 第二增益光纤耦合在第一和第二长波长反射器之间。 第一增益光纤的芯的直径大于第二增益光纤的芯的直径。
    • 4. 发明申请
    • Pulsed laser system with a thulium-doped saturable absorber Q-switch
    • 脉冲激光系统具有ium掺饱和吸收型Q开关
    • US20110158267A1
    • 2011-06-30
    • US12929054
    • 2010-12-27
    • Tzong-Yow Tsai
    • Tzong-Yow Tsai
    • H01S3/113
    • H01S3/113H01S3/0675H01S3/07H01S3/0809H01S3/082H01S3/094042H01S3/09415H01S3/1608H01S3/161H01S3/1616
    • A pulsed laser system having a Tm3+-doped saturable absorber Q-switch unit, capable of outputting laser pulses sequentially by inputting a stable continuous-wave pump light source, is disclosed. When the gain excited in the Er3+ laser resonator exceeds the lasing threshold, the photons start resonating and being amplified in the Er3+ laser resonator. At the same moment, the Tm3+-doped saturable absorber Q-switch unit absorbs the resonant photons and quickly reaches the situation of absorption saturation. Then, sequentially Q-switched Er3+ laser pulses at 1570 nm are passively produced. In addition, the Tm3+-doped saturable absorber Q-switch unit can be designated as the gain material of a second laser resonator for producing a gain-switched Tm3+ laser pulse at 1950 nm after each of the Q-switched Er3+ laser pulses. Moreover, the Tm3+ and Ho3+ co-doped crystal can be designated as the saturable absorber Q-switch unit, for producing a gain-switched Ho3+ laser pulses at 2090 nm.
    • 公开了具有Tm3 +掺杂可饱和吸收器Q开关单元的脉冲激光系统,其能够通过输入稳定的连续波泵浦光源顺序地输出激光脉冲。 当Er3 +激光谐振器激发的增益超过激光阈值时,光子在Er3 +激光谐振器中开始谐振并被放大。 同时,Tm3 +掺杂的可饱和吸收剂Q开关单元吸收共振光子,并迅速达到吸收饱和的状态。 然后,被动地产生在1570nm的依次Q开关Er3 +激光脉冲。 此外,Tm3 +掺杂可饱和吸收体Q开关单元可以被指定为第二激光谐振器的增益材料,用于在每个Q开关Er3 +激光脉冲之后在1950nm产生增益转换Tm3 +激光脉冲。 此外,Tm3 +和Ho3 +共掺杂晶体可以被指定为可饱和吸收体Q开关单元,用于在2090nm处产生增益转换Ho3 +激光脉冲。