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    • 3. 发明授权
    • Pumping method and unit for optical amplifiers
    • 用于光放大器的泵浦方法和单元
    • US07095554B2
    • 2006-08-22
    • US10643493
    • 2003-08-19
    • Aurelio PianciolaMarco De DonnoPaolo Milanese
    • Aurelio PianciolaMarco De DonnoPaolo Milanese
    • H01S3/91
    • H01S3/094003H01S3/0637H01S3/0675H01S3/06754H01S3/094096
    • Optical pumping unit comprising a first pump source adapted to emit a first pump radiation at wavelength λp1; a second pump source adapted to emit a second pump radiation at wavelength λp2, with wavelength λp2 different from wavelength λp1; and a common coupling section comprising a first and a second port connected to the first and second pump source for respectively receiving the first and the second pump radiation; a third port for a signal radiation at wavelength λs; a fourth port, wherein the coupling section is adapted to combine, in the fourth port, the signal radiation and the first and second pump radiation through a reversal of the direction of propagation of the first pump radiation from the first port to the fourth port.
    • 光泵单元包括适于在波长lambdap 1处发射第一泵浦辐射的第一泵浦源; 第二泵浦源,其适于在波长兰波特2处发射具有不同于波长兰波特1的波长兰波特2的第二泵浦辐射; 以及公共耦合部分,包括连接到第一和第二泵浦源的第一和第二端口,用于分别接收第一和第二泵浦辐射; 在波兰兰德斯的信号辐射的第三个端口; 第四端口,其中所述耦合部分适于在所述第四端口中通过所述第一泵浦辐射从所述第一端口到所述第四端口的传播方向的反转来组合所述信号辐射和所述第一和第二泵浦辐射。
    • 7. 发明授权
    • High-power external-cavity optically-pumped semiconductor lasers
    • 大功率外腔光泵浦半导体激光器
    • US07180928B2
    • 2007-02-20
    • US10695583
    • 2003-10-28
    • Andrea CapraraJuan L. ChillaLuis A. Spinelli
    • Andrea CapraraJuan L. ChillaLuis A. Spinelli
    • H01S3/91
    • H01S5/041H01S3/07H01S3/0815H01S3/082H01S3/094053H01S3/09408H01S3/09415H01S3/105H01S3/1083H01S3/109H01S3/1095H01S3/139H01S5/02272H01S5/024H01S5/02423H01S5/02484H01S5/14H01S5/141H01S5/18383
    • External-cavity optically-pumped semiconductor lasers (OPS-lasers) including an OPS-structure having a mirror-structure surmounted by a surface-emitting, semiconductor multilayer (periodic) gain-structure are disclosed. The gain-structure is pumped by light from diode-lasers. The OPS-lasers can provide fundamental laser output-power of about two Watts (2.0 W) or greater. Intracavity frequency-converted arrangements of the OPS-lasers can provide harmonic laser output-power of about one-hundred milliwatts (100 mW) or greater, even at wavelengths in the ultraviolet region of the electromagnetic spectrum. These high output powers can be provided even in single axial-mode operation. Particular features of the OPS-lasers include a heat sink-assembly for cooling the OPS-structure, a folded resonator concept for providing optimum beam size at optically-nonlinear crystals used for frequency conversion, preferred selection of optically-nonlinear materials for frequency-conversion, and compound resonator designs for amplifying second harmonic-radiation for subsequent conversion to third or fourth harmonic radiation.
    • 公开了包括具有由表面发射的半导体多层(周期)增益结构所覆盖的镜面结构的OPS结构的外腔光泵浦半导体激光器(OPS-激光器)。 增益结构由二极管激光器的光泵浦。 OPS激光器可以提供约2瓦(2.0瓦)或更大的基本激光输出功率。 OPS激光器的腔内频率转换装置即使在电磁波谱的紫外区域的波长下也能提供约百毫瓦(100mW)或更大的谐波激光输出功率。 即使在单轴向模式操作中也能够提供这些高输出功率。 OPS激光器的特征包括用于冷却OPS结构的散热器组件,用于在用于频率转换的光学非线性晶体处提供最佳光束尺寸的折叠谐振器概念,用于频率转换的光学非线性材料的优选选择 以及用于放大二次谐波辐射以用于随后转换成第三或第四谐波辐射的复合谐振器设计。