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    • 2. 发明授权
    • Semiconductor laser pumped solid-state laser device
    • 半导体激光泵浦固态激光器件
    • US08223813B2
    • 2012-07-17
    • US13004473
    • 2011-01-11
    • Masaki TsunekaneTakunori Taira
    • Masaki TsunekaneTakunori Taira
    • H01S3/04
    • H01S3/0941H01S3/042H01S3/06H01S3/1611
    • A compact semiconductor laser pumped solid-state laser device is provided that can suppress unnecessary parasitic oscillation in a microchip and efficiently extract energy. The semiconductor laser pumped solid-state laser device comprises: a solid-state laser core 1 disposed in the center and formed of a laser medium containing neodymium (Nd) as a laser oscillation element; a light guide region 2 integrally formed around the solid-state laser core 1, having approximately rectangular shape with four linear light entrance windows formed on the outer periphery thereof, and containing samarium (Sm) as a laser oscillation element; and a heat sink 4 disposed on one face of the light guide region 2 including the solid-state core 1, wherein laser oscillation is performed by introducing a pumping light 14 through the light entrance windows 3 and propagating the pumping light 14 through the light guide region 2 to pump the solid-state laser core 1, and wherein a laser oscillation light is extracted from the upper face of the solid-state laser core 1 opposite to the face contacting the heat sink 4.
    • 提供了可以抑制微芯片中的不必要的寄生振荡并且有效地提取能量的紧凑型半导体激光泵浦固态激光器件。 半导体激光泵浦固态激光器件包括:固态激光器芯1,其设置在中心并由包含钕(Nd)作为激光振荡元件的激光介质形成; 整体地形成在固体激光器芯1周围的导光区域2,具有形成在其外周上的四个线性光入射窗的大致矩形形状,并且包含作为激光振荡元件的钐(Sm) 以及设置在包括固体芯1的导光区域2的一个面上的散热片4,其中激光振荡是通过引入光入射窗口3的泵浦光14并通过导光体传播的。 区域2来泵浦固态激光器芯1,并且其中激光振荡光从与固体激光器芯1的与散热片4接触的面相反的上表面提取。
    • 3. 发明申请
    • SEMICONDUCTOR LASER PUMPED SOLID-STATE LASER DEVICE
    • 半导体激光泵浦固态激光器件
    • US20110176566A1
    • 2011-07-21
    • US13004473
    • 2011-01-11
    • Masaki TsunekaneTakunori Taira
    • Masaki TsunekaneTakunori Taira
    • H01S3/04
    • H01S3/0941H01S3/042H01S3/06H01S3/1611
    • A compact semiconductor laser pumped solid-state laser device is provided that can suppress unnecessary parasitic oscillation in a microchip and efficiently extract energy. The semiconductor laser pumped solid-state laser device comprises: a solid-state laser core 1 disposed in the center and formed of a laser medium containing neodymium (Nd) as a laser oscillation element; a light guide region 2 integrally formed around the solid-state laser core 1, having approximately rectangular shape with four linear light entrance windows formed on the outer periphery thereof, and containing samarium (Sm) as a laser oscillation element; and a heat sink 4 disposed on one face of the light guide region 2 including the solid-state core 1, wherein laser oscillation is performed by introducing a pumping light 14 through the light entrance windows 3 and propagating the pumping light 14 through the light guide region 2 to pump the solid-state laser core 1, and wherein a laser oscillation light is extracted from the upper face of the solid-state laser core 1 opposite to the face contacting the heat sink 4.
    • 提供了可以抑制微芯片中的不必要的寄生振荡并且有效地提取能量的紧凑型半导体激光泵浦固态激光器件。 半导体激光泵浦固态激光器件包括:固态激光器芯1,其设置在中心并由包含钕(Nd)作为激光振荡元件的激光介质形成; 整体地形成在固体激光器芯1周围的导光区域2,具有形成在其外周上的四个线性光入射窗的大致矩形形状,并且包含作为激光振荡元件的钐(Sm) 以及设置在包括固体芯1的导光区域2的一个面上的散热片4,其中激光振荡是通过引入光入射窗口3的泵浦光14并通过导光体传播的。 区域2来泵浦固态激光器芯1,并且其中激光振荡光从与固体激光器芯1的与散热片4接触的面相反的上表面提取。
    • 7. 发明授权
    • Lasers
    • 激光器
    • US5870415A
    • 1999-02-09
    • US868586
    • 1997-06-04
    • Masaki Tsunekane
    • Masaki Tsunekane
    • H01S3/081H01S3/098H01S3/108H01S3/109H01S3/10
    • H01S3/109H01S3/108H01S3/08022H01S3/081
    • A laser device has a laser medium responsive to an excitation light for generating a laser beam consisting of a plurality of longitudinal modes when excited by an energy of the excitation light, two mirrors constituting a laser resonator for forming an optical path of the laser beam passing through said laser medium, and a nonlinear optical element, arranged in the laser resonator, for generating a second harmonic caused by one of the plurality of longitudinal modes constituting the laser beam generated in said laser medium and a sum-frequency caused by two of the plurality of longitudinal modes constituting the laser beam generated in said laser medium. Wavelength and phase of the longitudinal modes constituting the laser beam generated in said laser medium are controlled to a condition that said nonlinear optical element generates the second harmonic and the sum-frequency, including a second harmonic and a sum-frequency, or sum-frequency-to-sum-frequency, which have the same wavelength as one another and phases serving to weaken one another.
    • 激光装置具有响应于激发光的激光介质,用于当由激发光的能量激发时产生由多个纵向模式组成的激光束,两个反射镜构成用于形成激光束通过的光路的激光谐振器 通过所述激光介质和布置在激光谐振器中的非线性光学元件,用于产生由构成在所述激光介质中产生的激光束的多个纵向模式之一引起的二次谐波,以及由两个 多个纵向模式构成在所述激光介质中产生的激光束。 构成在所述激光介质中产生的激光束的纵向模式的波长和相位被控制为所述非线性光学元件产生二次谐波并且包括二次谐波和和频和和频的和频的条件 与频率之间具有相同的波长和相互削弱的相位。
    • 8. 发明授权
    • Composite laser rod, fabricating method thereof, and laser device therewith
    • 复合激光棒及其制造方法及激光装置
    • US07496125B2
    • 2009-02-24
    • US11561301
    • 2006-11-17
    • Hikaru KoutaYoshikazu SuzukiShuetsu KudoMasaki TsunekaneKatsuji MukaiharaTakagimi YanagitaniHideki Yagi
    • Hikaru KoutaYoshikazu SuzukiShuetsu KudoMasaki TsunekaneKatsuji MukaiharaTakagimi YanagitaniHideki Yagi
    • H01S3/14H01S3/07
    • H01S3/061H01S3/025H01S3/0407H01S3/042H01S3/0612H01S3/08095H01S3/0941H01S3/09415
    • As a composite laser rod capable of satisfying the positional stability and output stability of a laser beam, a laser rod in which a laser active element is doped is intimately inserted into a hollow portion of a non-doped ceramic pipe that has a crystal structure the same as the laser rod followed by baking so as to remove a gap and strain at an interface between the laser rod and the ceramic pipe after the baking further followed by polishing a surface of the ceramic pipe to form a ceramic skin layer, and thereby a composite laser rod is formed. In the composite laser rod, an influence due to fluctuation in the cooling capacity of cooling water or a heat sink is averaged by a non-doped skin layer, temperature fluctuation of the laser rod is suppressed, and an influence of vibration from the cooling water or a cooling fan can be suppressed. When the refractive index of the laser rod is made higher than that of the ceramic pipe, a high efficiency oscillation can be realized, and furthermore when the thermal conductivity of the ceramic pipe is made higher than that of the laser rod, the thermal lens effect can be alleviated.
    • 作为能够满足激光的位置稳定性和输出稳定性的复合激光棒,将激光激光元件掺杂的激光棒紧密地插入到具有晶体结构的非掺杂陶瓷管的中空部分 与激光棒相同,随后烘烤,以便在烘烤之后除去激光棒和陶瓷管之间的界面处的间隙和应变,然后对陶瓷管的表面进行抛光以形成陶瓷表皮层,由此 形成复合激光棒。 在复合激光棒中,由于冷却水或散热器的冷却能力的波动引起的影响由非掺杂表层平均化,激光棒的温度波动被抑制,来自冷却水的振动的影响 或者可以抑制冷却风扇。 当激光棒的折射率高于陶瓷管的折射率时,可以实现高效率的振荡,此外,当陶瓷管的导热率高于激光棒的热导率时,热透镜效应 可以缓解。