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    • 1. 发明申请
    • Semiconductor laser device
    • 半导体激光器件
    • US20060165144A1
    • 2006-07-27
    • US10526217
    • 2003-08-01
    • Aleksei MikhailovPaul HartenWieland Hill
    • Aleksei MikhailovPaul HartenWieland Hill
    • H01S5/00
    • H01S5/4062H01S5/0267H01S5/0656H01S5/4012H01S5/4031
    • The invention relates to a semiconductor laser devcie, including a semiconductor laser element, or a number of individual lasers mounted parallel to each other, with a number of output surfaces, from which laser light can escape, having a treater divergence in a first direction (Y) than in a second direction parallel to the above and at least one reflecting means, at a distance from the output surfaces, outside the semiconductor laser element or the individual laser, with at least one reflective surface which reflects at least a part of the laser light escaping from the semiconductor laser element or the individual lasers through the output surfaces back into the semiconductor laser element or the individual lasers, such that the mode spectrum of the semiconductor laser element or the individual lasers is influenced. The at least one reflective surface of the reflecting means has a concave curve.
    • 本发明涉及一种包括半导体激光器元件或多个平行安装的多个激光器的半导体激光器,其具有多个输出表面,激光可以从该激光输出表面沿着第一方向发散, Y)比在平行于上述第二方向的第二方向和至少一个反射装置在距离输出表面一定距离的半导体激光元件或单个激光器的外部具有至少一个反射表面,反射表面反映至少一部分 激光从半导体激光元件或各个激光器通过输出表面从半导体激光器元件或各个激光器中逸出,从而影响半导体激光器元件或各个激光器的模式光谱。 反射装置的至少一个反射表面具有凹曲线。
    • 2. 发明授权
    • Semiconductor laser device
    • 半导体激光器件
    • US07376168B2
    • 2008-05-20
    • US10526276
    • 2003-07-30
    • Aleksei MikhailovWieland Hill
    • Aleksei MikhailovWieland Hill
    • H01S3/08
    • H01S3/08059H01S5/0654H01S5/141H01S5/2036
    • The invention relates to a semiconductor laser device, including a semiconductor laser element, or a number of individual lasers mounted parallel to each other, with a number of output surfaces, from which laser light can escape, having a treater divergence in a first direction (Y) than in a second direction parallel to the above and at least one reflecting means, at a distance from the output surfaces, outside the semiconductor laser element or the individual laser, with at least one reflective surface which reflects at least a part of the laser light escaping from the semiconductor laser element or the individual lasers through the output surfaces back into the semiconductor laser element or the individual lasers, such that the mode spectrum of the semiconductor laser element or the individual lasers is influenced. The at least one reflective surface of the reflecting means has a concave curve.
    • 本发明涉及一种半导体激光器件,包括半导体激光器元件或多个彼此平行安装的单个激光器,其具有多个输出表面,激光可从该激光输出表面沿着第一方向发散, Y)比在平行于上述第二方向的第二方向和至少一个反射装置在距离输出表面一定距离的半导体激光元件或单个激光器的外部具有至少一个反射表面,反射表面反映至少一部分 激光从半导体激光元件或各个激光器通过输出表面从半导体激光器元件或各个激光器中逸出,从而影响半导体激光器元件或各个激光器的模式光谱。 反射装置的至少一个反射表面具有凹曲线。
    • 3. 发明申请
    • Semiconductor laser device
    • 半导体激光器件
    • US20060140242A1
    • 2006-06-29
    • US10526276
    • 2003-07-30
    • Aleksei MikhailovWieland Hill
    • Aleksei MikhailovWieland Hill
    • H01S3/08
    • H01S3/08059H01S5/0654H01S5/141H01S5/2036
    • The invention relates to a semiconductor laser device, including a semiconductor laser element, or a number of individual lasers mounted parallel to each other, with a number of output surfaces, from which laser light can escape, having a treater divergence in a first direction (Y) than in a second direction parallel to the above and at least one reflecting means, at a distance from the output surfaces, outside the semiconductor laser element or the individual laser, with at least one reflective surface which reflects at least a part of the laser light escaping from the semiconductor laser element or the individual lasers through the output surfaces back into the semiconductor laser element or the individual lasers, such that the mode spectrum of the semiconductor laser element or the individual lasers is influenced. The at least one reflective surface of the reflecting means has a concave curve.
    • 本发明涉及一种半导体激光器件,包括半导体激光器元件或多个彼此平行安装的单个激光器,其具有多个输出表面,激光可从该激光输出表面沿着第一方向发散, Y)比在平行于上述第二方向的第二方向和至少一个反射装置在距离输出表面一定距离的半导体激光元件或单个激光器的外部具有至少一个反射表面,反射表面反映至少一部分 激光从半导体激光元件或各个激光器通过输出表面从半导体激光器元件或各个激光器中逸出,从而影响半导体激光器元件或各个激光器的模式光谱。 反射装置的至少一个反射表面具有凹曲线。
    • 4. 发明申请
    • Device for deflecting laser radiation, and laser device having such a device
    • 用于偏转激光辐射的装置,以及具有这种装置的激光装置
    • US20140023105A1
    • 2014-01-23
    • US14003098
    • 2012-03-15
    • Aleksei MikhailovAliaksei KrasnaberskiYuri Kolotushkin
    • Aleksei MikhailovAliaksei KrasnaberskiYuri Kolotushkin
    • H01S3/063
    • H01S3/063G02B26/08G02F1/295
    • A device for deflecting laser radiation (8) with a waveguide (1) having an entrance face (6) and an exit face (7) spaced apart from each other in the Z-direction by a spacing (L), wherein the waveguide (1) has a greater extent in the X-direction than in the Y-direction, and at least two electrodes (4, 5) arranged on the waveguide (1), wherein a deflection voltage (+V, −V) is applied to the at least two electrodes (4, 5), so that the laser radiation is electro-optically deflected in the waveguide (1) with respect to the X-direction, wherein the spacing (L) between entrance face (6) and exit face (7) has a dimension so that the profile of the laser radiation after exiting the exit face (7) corresponds to the profile of the laser radiation prior to entering the entrance face (6). The spacing (L) may correspond to the Talbot length of the laser radiation.
    • 一种用于通过具有入射面(6)和出射面(7)的波导(1)偏转激光辐射(8)的装置,所述入射面和所述出射面在所述Z方向上彼此间隔开间隔(L),其中所述波导 1)在X方向上比在Y方向上具有更大的程度,以及布置在波导(1)上的至少两个电极(4,5),其中偏转电压(+ V,-V)被施加到 所述至少两个电极(4,5),使得所述激光辐射相对于所述X方向在所述波导(1)中电光偏转,其中所述入射面(6)和出射面 (7)的尺寸使得离开出射面(7)之后的激光辐射的轮廓对应于在进入入射面(6)之前的激光辐射的轮廓。 间距(L)可以对应于激光辐射的Talbot长度。
    • 5. 发明授权
    • Method and device for influencing light
    • 影响光线的方法和装置
    • US07548375B2
    • 2009-06-16
    • US11606253
    • 2006-11-29
    • Vitalij LissotschenkoAleksei MikhailovIouri MikliaevMaxim Darsht
    • Vitalij LissotschenkoAleksei MikhailovIouri MikliaevMaxim Darsht
    • G02B27/10
    • G02F1/292G02B27/0087G02B27/0961G02F2203/04
    • A method and device for influencing light, include a first array of lens systems through which the light to be influenced can at least partially pass. A first phase-modifying array modulates the phases of the light which has passed through the individual lens systems of the first array. A second array of lens systems is provided through which the light phase-modified by the phase modifiers can at least partially pass. The second array of lens systems causes a plurality of local intensity maxima of the light to be created in the propagation direction of the light in the region of the second array of lens systems. A first lens system is disposed between the first array of lens systems and the second array of lens systems and a second lens system is disposed between the first lens system and the second array of lens systems. The first phase-modifying array is disposed between the first and second lens systems.
    • 用于影响光的方法和装置包括透镜系统的第一阵列,受影响的光可通过该第一阵列至少部分地通过。 第一相位调整阵列调制通过第一阵列的各个透镜系统的光的相位。 提供了第二阵列的透镜系统,通过相位修改器进行光相位修改的光可以至少部分地通过。 第二透镜系统阵列导致在第二透镜系统阵列的区域中在光的传播方向上产生光的多个局部强度最大值。 第一透镜系统设置在第一透镜系统阵列和第二透镜系统阵列之间,并且第二透镜系统设置在第一透镜系统和第二透镜系统阵列之间。 第一相位改变阵列设置在第一和第二透镜系统之间。
    • 6. 发明授权
    • Device for converting laser radiation into laser radiation having an M profile
    • 用于将激光辐射转换成具有M轮廓的激光辐射的装置
    • US09448410B2
    • 2016-09-20
    • US13992234
    • 2011-12-08
    • Aleksei Mikhailov
    • Aleksei Mikhailov
    • G02B27/09G02B23/00G02B27/12G02B5/00
    • G02B27/123G02B5/001G02B27/0927G02B27/095
    • The invention relates to a device for converting laser radiation (21) into laser radiation having an M profile, comprising separating means (34), which can separate the laser radiation (21) into at least two partial beams (22, 23) which, at least in some sections or partially, move in different directions or are arranged offset from one another, and optics means (38), which can introduce the at least two partial beams (22, 23) in a working plane and/or can, at least in some sections, superimpose the at least two partial beams (22, 23) in the working plane, wherein the separating means (34) comprise a lens array (39, 41) having at least two lenses (40, 42).
    • 本发明涉及一种用于将激光辐射(21)转换为具有M剖面的激光辐射的装置,包括分离装置(34),其可将激光辐射(21)分离成至少两个部分光束(22,23) 至少在一些部分或部分地沿不同的方向移动或彼此偏移地布置;以及光学装置(38),其可以将至少两个部分光束(22,23)引入工作平面和/或可以, 至少在一些部分中,将至少两个部分光束(22,23)叠加在工作平面中,其中分离装置(34)包括具有至少两个透镜(40,42)的透镜阵列(39,41)。
    • 7. 发明申请
    • Device For Converting Laser Radiation Into Laser Radiation Having an M Profile
    • 将激光辐射转换为具有M型材的激光辐射的装置
    • US20130271830A1
    • 2013-10-17
    • US13992234
    • 2011-12-08
    • Aleksei Mikhailov
    • Aleksei Mikhailov
    • G02B27/12
    • G02B27/123G02B5/001G02B27/0927G02B27/095
    • The invention relates to a device for converting laser radiation (21) into laser radiation having an M profile, comprising separating means (34), which can separate the laser radiation (21) into at least two partial beams (22, 23) which, at least in some sections or partially, move in different directions or are arranged offset from one another, and optics means (38), which can introduce the at least two partial beams (22, 23) in a working plane and/or can, at least in some sections, superimpose the at least two partial beams (22, 23) in the working plane, wherein the separating means (34) comprise a lens array (39, 41) having at least two lenses (40, 42).
    • 本发明涉及一种用于将激光辐射(21)转换为具有M剖面的激光辐射的装置,包括分离装置(34),其可将激光辐射(21)分离成至少两个部分光束(22,23) 至少在一些部分或部分地沿不同的方向移动或彼此偏移地布置;以及光学装置(38),其可以将至少两个部分光束(22,23)引入工作平面和/或可以, 至少在一些部分中,将至少两个部分光束(22,23)叠加在工作平面中,其中分离装置(34)包括具有至少两个透镜(40,42)的透镜阵列(39,41)。
    • 10. 发明授权
    • Device for homogenizing light
    • 光均匀化装置
    • US07684119B2
    • 2010-03-23
    • US12110837
    • 2008-04-28
    • Vitalij LissotschenkoAleksei MikhailovMaxim DarshtIouri Mikliaev
    • Vitalij LissotschenkoAleksei MikhailovMaxim DarshtIouri Mikliaev
    • G02B27/10
    • G02B27/0961G02B3/005G02B27/0966
    • A device for homogenizing light contains at least one optically functional surface through which light to be homogenized can pass and a plurality of concave and convex cylindrical lenses which are disposed in an alternating fashion one next to the other on the at least one optically functional surface. The device further has at least one first embodiment and at least one second embodiment, different from the at least one first embodiment, of transitions between the concave and the convex cylindrical lenses. Wherein the transitions between the concave and the convex cylindrical lenses are configured such that partial beams of the light to be homogenized, which have passed through different embodiments of the transitions between the concave and the convex cylindrical lenses, have an optical path difference with respect to one another, which contributes to the reduction of interference effects in the homogenized light.
    • 用于均匀化光的装置包含至少一个光学功能表面,待均匀化的光可通过该光学功能表面通过;以及多个凹凸凸柱面透镜,其以交替的方式彼此相邻设置在至少一个光学功能表面上。 该装置还具有至少一个第一实施例和至少一个第二实施例,不同于至少一个第一实施例的凹凸柱面透镜之间的过渡。 其中凹凸柱面透镜之间的过渡被配置成使得通过凹凸柱面透镜之间的过渡的不同实施例的待均匀化的光的部分光束相对于 另一方面,这有助于减少均质化光的干涉效应。