Solid Laser Module, Optical Amplifier, and Laser Oscillator
    1.
    发明申请
    Solid Laser Module, Optical Amplifier, and Laser Oscillator 有权
    固体激光模块,光放大器和激光振荡器

    公开(公告)号:US20080089372A1

    公开(公告)日:2008-04-17

    申请号:US11663960

    申请日:2005-11-24

    IPC分类号: H01S3/042 H01S3/093

    摘要: A solid laser module etc. having a structure that enables to obtain a high-quality light output. The solid laser module has a vacuum container with a window, and a heat sink, a solid laser medium, and a pair of transparent members are received in an integrally assembled state in the container. The solid laser medium and the pair of transparent members are each formed in a disc shape, and the solid laser medium is sandwiched between the pair of transparent members. The thermal conductivity of each of the pair of transparent members is higher than the thermal conductivity of the solid laser medium. The heat sink is shaped to simultaneously hold portions of the pair of transparent members that hold the solid laser medium in between. A heat insulation region having a lower thermal conductivity than the solid laser medium is provided between the heat sink and the solid laser medium.

    摘要翻译: 具有能够获得高质量光输出的结构的固体激光器模块等。 固体激光模块具有带有窗口的真空容器,并且散热器,固体激光介质和一对透明构件以整体组装状态容纳在容器中。 固体激光介质和一对透明构件各自形成为盘状,并且固体激光介质夹在该对透明构件之间。 一对透明构件中的每一个的热导率高于固体激光介质的热导率。 散热器被成形为同时保持将固体激光介质保持在其间的一对透明构件的部分。 在散热器和固体激光介质之间设置具有比固体激光介质低的热导率的隔热区域。

    Solid laser module, optical amplifier, and laser oscillator
    2.
    发明授权
    Solid laser module, optical amplifier, and laser oscillator 有权
    固体激光模块,光放大器和激光振荡器

    公开(公告)号:US07653100B2

    公开(公告)日:2010-01-26

    申请号:US11663960

    申请日:2005-11-24

    IPC分类号: H01S3/04

    摘要: The present invention relates to a solid-state laser module, and so on, having a structure for enabling optical output of high quality to be obtained. The solid-state laser module includes a vacuum container with windows, and a heat sink, a solid-state laser medium, and a pair of transparent members are housed in the vacuum container in an integrally assembled state. The solid-state laser medium and the pair of transparent members respectively have disk shapes, and the pair of transparent members sandwich the solid-state laser medium. The thermal conductivity of each of the pair of transparent members is higher than the thermal conductivity of the solid-state laser medium. The heat sink has a shape that simultaneously clamps portions of the pair of transparent members that sandwich the solid-state laser medium in between, and a heat insulating region, with a thermal conductivity that is lower than the thermal conductivity of the solid-state laser medium, is provided between the heat sink and the solid-state laser medium.

    摘要翻译: 本发明涉及具有能够获得高质量的光输出的结构的固态激光器模块等。 固体激光器模块包括具有窗口的真空容器,并且散热器,固态激光介质和一对透明构件以整体组装的状态容纳在真空容器中。 固体激光介质和一对透明构件分别具有圆盘形状,并且一对透明构件夹着固态激光介质。 一对透明构件中的每一个的热导率高于固态激光介质的热导率。 散热器具有同时夹持固定状态的激光介质的一对透明构件的一部分与隔热区域的热传导率低于固体激光器的热导率的形状 介质,设置在散热器和固态激光介质之间。

    SOLID-STATE LASER DEVICE
    3.
    发明申请
    SOLID-STATE LASER DEVICE 审中-公开
    固态激光器件

    公开(公告)号:US20110176574A1

    公开(公告)日:2011-07-21

    申请号:US13055995

    申请日:2009-06-10

    IPC分类号: H01S3/08

    摘要: A solid-state laser apparatus 1 bounces laser light L2 between an end mirror 3 and an output mirror 4 via a slab-type solid-state laser medium 2 excited by excitation light L1 to thereby amplify and output the laser light L2. The solid-state laser medium 2 includes incident/exit end faces 2a, 2b on and from which the laser light L2 is made incident and exits, and reflecting end faces 2c, 2d which reflect the laser light L2 so that the incident laser light L2 propagates in a zigzag manner. The incident/exit end face 2a is made incident with the excitation light L1 so that the excitation light L1 propagates along substantially the same propagation path as that of the laser light L2 within the solid-state laser medium 2. Accordingly, a solid-state laser apparatus which can improve the coupling efficiency between the excitation light and the laser light is realized.

    摘要翻译: 固体激光装置1经由激发光L1激发的板状固体激光介质2在端镜3和输出反射镜4之间反射激光L2,从而放大并输出激光L2。 固态激光介质2包括激光L2入射并离开的入射/出射端面2a,2b,反射激光L2的反射端面2c,2d,使入射激光L2 以锯齿形的方式传播。 入射/出射端面2a与激发光L1入射,使得激发光L1沿与固体激光介质2内的激光L2的传播路径基本相同的传播路径传播。因此,固态 实现了可以提高激发光和激光之间的耦合效率的激光装置。

    METHOD OF DETERMINING NUCLEAR FUSION IRRADIATION COORDINATES, DEVICE FOR DETERMINING NUCLEAR FUSION IRRADIATION COORDINATES, AND NUCLEAR FUSION DEVICE
    4.
    发明申请
    METHOD OF DETERMINING NUCLEAR FUSION IRRADIATION COORDINATES, DEVICE FOR DETERMINING NUCLEAR FUSION IRRADIATION COORDINATES, AND NUCLEAR FUSION DEVICE 有权
    确定核熔融辐射坐标的方法,用于确定核熔融辐射坐标的装置和核熔融装置

    公开(公告)号:US20120155590A1

    公开(公告)日:2012-06-21

    申请号:US13388500

    申请日:2010-07-20

    IPC分类号: G21B1/00 G06F17/10

    CPC分类号: G21B1/23 H05H1/22

    摘要: An object of the present invention is to efficiently improve uniformity of energy lines to be irradiated. A method of determining nuclear fusion irradiation coordinates according to the present invention is a method of calculating irradiation coordinates when energy lines are irradiated onto a nuclear fusion target, and comprises an initial arrangement step S202 of virtually arranging electric charges Qi at initial coordinates of the number of irradiation coordinates NB on a spherical surface S0 set by using random numbers, a coordinate analysis step S203 of analyzing coordinates ri of the electric charges Qi in time series based on coulomb forces acting among the electric charges Qi by constraining the coordinates ri onto the spherical surface S0, potential evaluation steps S205 and S206 of determining a timing at which potential energies of the electric charges Qi were stabilized based on the coordinates ri, and an irradiation coordinate deriving step S207 of deriving coordinates ri at the timing at which potential energies were stabilized as irradiation coordinates of energy lines in a case where a nuclear fusion target is arranged at the center of the spherical surface S0.

    摘要翻译: 本发明的目的在于有效地提高被照射的能量线的均匀性。 根据本发明的确定核聚变照射坐标的方法是当将能量线照射到核聚变靶上时计算辐射坐标的方法,包括在数字的初始坐标处虚拟地布置电荷Qi的初始布置步骤S202 在通过使用随机数设置的球面S0上的照射坐标NB的坐标分析步骤S203,其基于通过将坐标ri约束到球面上来分析基于通过电荷Qi之间的库仑力的时间序列的电荷Qi的坐标ri 表面S0,基于坐标ri确定电荷Qi的势能的定时的电位评估步骤S205和S206以及在势能稳定的定时导出坐标ri的照射坐标导出步骤S207 作为能量线的照射坐标 将核聚变靶设置在球面S0的中央的情况。

    Solid-state laser apparatus
    5.
    发明申请
    Solid-state laser apparatus 审中-公开
    固态激光装置

    公开(公告)号:US20070189346A1

    公开(公告)日:2007-08-16

    申请号:US10573114

    申请日:2004-08-23

    IPC分类号: H01S3/04 H01S3/16

    摘要: A solid-state laser apparatus which can cool a solid-state laser medium such that the solid-state laser medium attains a uniform temperature along the propagating direction of light to be amplified is provided. In a solid-state laser apparatus 1, a coolant circulating through flow paths 12a, 12b comes into direct contact with a pair of reflecting end faces 5a, 5b of a solid-state laser medium 3, whereby the laser medium 3 heated by pumping light emitted from semiconductor lasers 9 can efficiently be cooled. Since the coolant circulates through the flow paths 12a, 12b in a direction substantially perpendicular to a propagating surface P of light to be amplified L, the solid-state laser medium 3 can be cooled such as to attain a uniform temperature along a propagating direction of the light L. This can lower the thermal lens effect and thermal birefringence effect in the solid-state laser medium 3.

    摘要翻译: 提供一种可以冷却固态激光介质以使得固体激光介质沿着要放大的光的传播方向达到均匀温度的固态激光装置。 在固体激光装置1中,通过流路12a,12b的循环的冷却剂与固体激光介质3的一对反射端面5a,5b直接接触,由此激光介质3 通过泵浦从半导体激光器9发射的光来加热可以有效地被冷却。 由于冷却剂在与要放大的光L的传播面P大致正交的方向上通过流路12a,12b进行循环,所以能够冷却固体激光介质3,使其沿着传播的方向达到均匀的温度 可以降低固体激光介质3中的热透镜效应和热双折射效应。

    Solid-State Laser Apparatus
    7.
    发明申请
    Solid-State Laser Apparatus 有权
    固态激光装置

    公开(公告)号:US20070297470A1

    公开(公告)日:2007-12-27

    申请号:US10569465

    申请日:2004-08-23

    IPC分类号: H01S3/04

    摘要: In the solid-state laser apparatus 1, a main pipe 11 for circulating a coolant through a solid-state laser medium 3 is provided with a heat exchanger 14, whereby the laser medium 3 is prevented from raising its temperature. When the coolant becomes acidic or alkaline, a controller 24 controls a flow regulating valve 23, so as to increase the flow rate of the coolant flowing into a bypass pipe 21 provided with a deionizing filter 22, whereby the acidity or alkalinity of the coolant can be weakened. This can prevent the coolant from deteriorating a predetermined part of the laser apparatus 3, and thus can improve the durability of the solid-state laser apparatus 1. Also, since the bypass pipe 21 connected in parallel to a part of the main pipe 11 is provided with the deionizing filter 22, the flow rate of the coolant circulating through the main pipe 11 can be restrained from decreasing, and the cooling efficiency of the laser medium 3 can be prevented from lowering.

    摘要翻译: 在固态激光装置1中,通过固体激光介质3使冷却剂循环的主管11设置有热交换器14,由此能够防止激光介质3升温。 当冷却剂变为酸性或碱性时,控制器24控制流量调节阀23,以便增加流入设置有去离子过滤器22的旁通管21中的冷却剂的流量,由此冷却剂的酸度或碱度可以 被削弱 这可以防止冷却剂使激光装置3的预定部分劣化,从而可以提高固态激光装置1的耐久性。 此外,由于与主管11的一部分并联连接的旁通管21设置有去离子过滤器22,所以可以抑制通过主管11循环的冷却剂的流量的降低,并且冷却效率 可以防止激光介质3的降低。

    Method of determining nuclear fusion irradiation coordinates, device for determining nuclear fusion irradiation coordinates, and nuclear fusion device
    9.
    发明授权
    Method of determining nuclear fusion irradiation coordinates, device for determining nuclear fusion irradiation coordinates, and nuclear fusion device 有权
    确定核聚变辐射坐标的方法,确定核聚变辐射坐标的装置和核聚变装置

    公开(公告)号:US09230694B2

    公开(公告)日:2016-01-05

    申请号:US13388500

    申请日:2010-07-20

    IPC分类号: G21B1/00 G21B1/23 H05H1/22

    CPC分类号: G21B1/23 H05H1/22

    摘要: An object of the present invention is to efficiently improve uniformity of energy lines to be irradiated. A method of determining nuclear fusion irradiation coordinates according to the present invention is a method of calculating irradiation coordinates when energy lines are irradiated onto a nuclear fusion target, and comprises an initial arrangement step S202 of virtually arranging electric charges Qi at initial coordinates of the number of irradiation coordinates NB on a spherical surface S0 set by using random numbers, a coordinate analysis step S203 of analyzing coordinates ri of the electric charges Qi in time series based on coulomb forces acting among the electric charges Qi by constraining the coordinates ri onto the spherical surface S0, potential evaluation steps S205 and S206 of determining a timing at which potential energies of the electric charges Qi were stabilized based on the coordinates ri, and an irradiation coordinate deriving step S207 of deriving coordinates ri at the timing at which potential energies were stabilized as irradiation coordinates of energy lines in a case where a nuclear fusion target is arranged at the center of the spherical surface S0.

    摘要翻译: 本发明的目的在于有效地提高被照射的能量线的均匀性。 根据本发明的确定核聚变照射坐标的方法是当将能量线照射到核聚变靶上时计算辐射坐标的方法,包括在数字的初始坐标处虚拟地布置电荷Qi的初始布置步骤S202 在通过使用随机数设置的球面S0上的照射坐标NB的坐标分析步骤S203,其基于通过将坐标ri约束到球面上来分析基于通过电荷Qi之间的库仑力的时间序列的电荷Qi的坐标ri 表面S0,基于坐标ri确定电荷Qi的势能的定时的电位评估步骤S205和S206以及在势能稳定的定时导出坐标ri的照射坐标导出步骤S207 作为能量线的照射坐标 将核聚变靶设置在球面S0的中央的情况。

    Solid-state laser apparatus
    10.
    发明授权
    Solid-state laser apparatus 有权
    固态激光装置

    公开(公告)号:US07502396B2

    公开(公告)日:2009-03-10

    申请号:US10569465

    申请日:2004-08-23

    IPC分类号: H01S3/04

    摘要: A solid-state laser apparatus which can improve its durability is provide.In the solid-state laser apparatus 1, a main pipe 11 for circulating a coolant through a solid-state laser medium 3 is provided with a heat exchanger 14, whereby the laser medium 3 is prevented from raising its temperature. When the coolant becomes acidic or alkaline, a controller 24 controls a flow regulating valve 23, so as to increase the flow rate of the coolant flowing into a bypass pipe 21 provided with a deionizing filter 22, whereby the acidity or alkalinity of the coolant can be weakened. This can prevent the coolant from deteriorating a predetermined part of the laser apparatus 3, and thus can improve the durability of the solid-state laser apparatus 1. Also, since the bypass pipe 21 connected in parallel to a part of the main pipe 11 is provided with the deionizing filter 22, the flow rate of the coolant circulating through the main pipe 11 can be restrained from decreasing, and the cooling efficiency of the laser medium 3 can be prevented from lowering.

    摘要翻译: 提供可以提高其耐久性的固态激光装置。 在固态激光装置1中,通过固体激光介质3使冷却剂循环的主管11设置有热交换器14,由此能够防止激光介质3升温。 当冷却剂变为酸性或碱性时,控制器24控制流量调节阀23,以便增加流入设置有去离子过滤器22的旁通管21中的冷却剂的流量,由此冷却剂的酸度或碱度可以 被削弱 这可以防止冷却剂使激光装置3的预定部分劣化,从而可以提高固态激光装置1的耐久性。而且,由于与主管11的一部分并联连接的旁通管21是 设置有去离子过滤器22时,可以抑制通过主管11循环的冷却剂的流量的降低,并且可以防止激光介质3的冷却效率降低。