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    • 3. 发明授权
    • Arrangement for aligning the light beam paths of a group of laser diodes on a common spot, especially for providing pumping light for a solid state laser
    • 用于将一组激光二极管的光束路径对准在公共点上的布置,特别是用于为固态激光器提供泵浦光
    • US06501781B1
    • 2002-12-31
    • US09372303
    • 1999-08-11
    • Dieter MaurerLars Bartelt-BergerHeiner HauerAlbrecht KukeEberhard Moess
    • Dieter MaurerLars Bartelt-BergerHeiner HauerAlbrecht KukeEberhard Moess
    • H01S3091
    • H01S5/02252H01S5/02284H01S5/02288H01S5/02292H01S5/4012
    • The arrangement focuses a combined laser beam (33) composed of individual laser beams produced by laser diodes (2) on a common spot. Prismatic reflecting bodies (7,8) are arranged in depressions (11,12) provided in a common substrate (1) between parallel rows (R1,R2; R3,R4) of the laser diodes (2). Each reflecting body (7,8) has oppositely inclined reflecting surfaces arranged on opposite sides thereof for deflection of the individual laser beams from the two adjacent rows of laser diodes. Two cylindrical lenses (9) are arranged on opposite sides of each reflecting body (7,8) between the laser diodes and the reflective surfaces to convert elliptical remote fields of the laser beams into circularly symmetric remote fields. Laterally movable focusing lenses (14) for each individual laser beam are arranged on the reflecting bodies (7,8) between the common spot and the reflecting surfaces for individual adjustment of the laser beams, whereby the combined laser beam (33) is focussed on the common spot.
    • 该布置将由激光二极管(2)产生的单个激光束组成的组合激光束(33)聚焦在公共点上。 棱镜反射体(7,8)布置在设置在激光二极管(2)的平行列(R1,R2; R3,R4)之间的共同衬底(1)中的凹陷(11,12)中。 每个反射体(7,8)具有相对倾斜的反射表面,其布置在其相对侧上,用于偏转来自两个相邻行的激光二极管的各个激光束。 两个柱面透镜(9)被布置在激光二极管和反射表面之间的每个反射体(7,8)的相对侧上,以将激光束的椭圆形远场转换成圆对称的远场。 用于每个单独的激光束的用于每个单独的激光束的侧向可移动的聚焦透镜(14)被布置在公共光斑和反射表面之间的反射体(7,8)上,用于单独调节激光束,由此将组合的激光束(33)聚焦在 共同点。
    • 4. 发明授权
    • Laser module including grooved silicon substrate, isolator and optical
fiber
    • 激光模块包括开槽硅衬底,隔离器和光纤
    • US5566264A
    • 1996-10-15
    • US519663
    • 1995-08-25
    • Albrecht KukeEberhard Moess
    • Albrecht KukeEberhard Moess
    • G02B6/36G02B6/42H01S5/022G02B6/30H01S3/08
    • G02B6/423G02B6/4208H01S5/02296H01S5/005H01S5/0064H01S5/02252
    • The laser module couples its semiconductor laser to an optical device, e.g. an optical fiber, particularly a monomode fiber. The laser module includes a micromechanically structured silicon substrate (31) provided with an elongated groove (30) having a longitudinal axis by an anisotropic etching technique; a semiconductor laser (110) mounted on the silicon substrate (31) to emit light parallel to the longitudinal axis of the elongated groove; an optical coupling device including an isolator (10) positioned on the silicon substrate (31) so that light from the semiconductor laser (110) passes therethrough and a sealed housing (50) inside of which the silicon subtrate (31), the semiconductor laser (110) and the isolator are contained. At least a portion of the optical components mounted in the elongated groove and not rotationally symmetrical with respect to forward light transmission properties are each provided with at least one flat edge surface (210,210') bearing on an anisotropically etched wall of the elongated groove (30).
    • 激光模块将其半导体激光器耦合到光学器件,例如, 光纤,特别是单模光纤。 激光器模块包括具有通过各向异性蚀刻技术具有纵向轴线的细长槽(30)的微机械结构的硅衬底(31) 半导体激光器(110),其安装在所述硅基板(31)上以发射与所述细长槽的纵向轴线平行的光; 一种光耦合装置,包括位于硅衬底(31)上的隔离器(10),使得来自半导体激光器(110)的光通过其中,并且密封壳体(50)内部具有硅残渣(31),半导体激光器 (110)和隔离器。 安装在细长槽中而不是相对于向前光透射特性旋转对称的光学部件的至少一部分分别设置有至少一个平坦边缘表面(210,210'),该平坦边缘表面(210,210')承载在细长槽(30)的各向异性蚀刻壁 )。
    • 9. 发明授权
    • Method for assembling a miser laser with fibre coupling
    • 用光纤耦合器组装mis er激光的方法
    • US06580052B1
    • 2003-06-17
    • US09890555
    • 2002-02-05
    • Lars Bartelt-BergerAlbrecht KukeRaimund FritscherHelmut ReppeWerner ScholzRalpf Sommerfeldt
    • Lars Bartelt-BergerAlbrecht KukeRaimund FritscherHelmut ReppeWerner ScholzRalpf Sommerfeldt
    • B23K2642
    • H01S3/0606G02B6/4207G02B6/4216G02B6/4237H01S3/025H01S3/0627H01S3/083
    • Mounting method for a miser laser having a miser crystal on the base surface of a housing, which has a side wall with a housing window for the miser exit beam, is provided. A reference beam is directed through the housing window on to the crystal end face of the miser crystal with an inverted light beam direction which the miser beam to be generated is later to have. An adjusting device which permits mutually independent movements, on the one hand in a direction parallel to the reference beam, and on the other hand perpendicular thereto and parallel to the housing base, and also permits rotations about an axis of rotation perpendicular to the housing base, is used to preadjust the premounted miser stack such that the angle between the surface normal of the crystal end face and the reference beam is approximately 45°, and the reference beam strikes the crystal end face approximately at its center. In the as yet not optimally adjusted case, all the reflections are united on a display screen by displacing the miser transverse to the direction of the reference beam and by rotation.
    • 提供了一种具有在具有带有用于歪斜器出射光束的壳体窗口的侧壁的壳体的基底表面上的具有凹陷晶体的mis er激光器的安装方法。 参考光束通过壳体窗口引导到具有反向光束方向的歪斜晶体的晶体端面,所述反射光束方向将产生稍后要产生的歪斜光束。 一种调节装置,其一方面在与参考光束平行的方向上相互独立地移动,另一方面允许垂直于其并平行于壳体基座,并且还允许围绕垂直于壳体基座的旋转轴线旋转 用于预先调整预先安装的碎片堆叠,使得晶体端面的表面法线与参考光束之间的角度约为45°,参考光束大约在其中心处撞击晶体端面。 在尚未最佳调整的情况下,所有的反射通过使横向横向参考光束的方向偏移并通过旋转而在显示屏上相结合。