OBSERVATION DEVICE
    2.
    发明申请

    公开(公告)号:US20130063729A1

    公开(公告)日:2013-03-14

    申请号:US13695344

    申请日:2011-05-02

    IPC分类号: G01J9/02

    摘要: Provided is an observation device which can obtain a phase image of a moving object rapidly with high sensitivity even when using a photodetector having a slow read-out speed per pixel. The observation device 1 comprises a light source 10, a first modulator 20, a second modulator 30, a lens 40, a beam splitter 41, a photodetector 46, and an arithmetic unit 50. The lens 40 receives scattered light generated by a moving object 2 and forms a Fourier transform image of the object 2. The photodetector 46 outputs data representing a sum in a v direction of data temporally changing at a frequency corresponding to a Doppler shift frequency of the light having reached each position on a light-receiving surface through the lens 40 at each position in a u direction at each time. The arithmetic unit 50 obtains an image of the object 2 according to the output of the photodetector 46.

    Fast particle generating apparatus
    3.
    发明申请
    Fast particle generating apparatus 失效
    快速粒子发生装置

    公开(公告)号:US20070176078A1

    公开(公告)日:2007-08-02

    申请号:US10553432

    申请日:2004-04-22

    IPC分类号: G01J1/32

    CPC分类号: G21K1/06

    摘要: A laser beam L1 emitted from a laser source 10 is projected onto a target 30 set in a vacuum chamber 60 while being focused by a focusing optical system 20. This results in generating fast particles P such as protons and emitting the particles from the target 30. A light measuring device 40 measures plasma emission L2 from the target 30 upon in-focus irradiation with the laser beam L1 and an analyzing device 50 analyzes a measurement signal therefrom to assess a generation state of fast particles P. Then the focusing optical system 20 and target 30 are controlled through optical system moving mechanism 25 and target moving mechanism 35 on the basis of the result of the analysis and feedback control is performed on the generation state of fast particles P in the target 30. This realizes a fast particle generating apparatus capable of monitoring the generation state of fast particles in real time and thereby efficiently generating the fast particles.

    摘要翻译: 从激光源10发射的激光束L 1被投射到设置在真空室60中的目标30上,同时被聚焦光学系统20聚焦。 这导致产生诸如质子的快速颗粒P并从靶30发射颗粒。 光测量装置40在对激光束L 1进行聚焦照射时测量来自靶30的等离子体发射L 2,并且分析装置50从其分析测量信号,以评估快速颗粒P的产生状态。然后聚焦光学系统 20和目标30根据分析结果通过光学系统移动机构25和目标移动机构35进行控制,并且对目标30中的快速粒子P的生成状态进行反馈控制。 这实现了能够实时监测快速颗粒的生成状态并从而有效地产生快速颗粒的快速颗粒产生装置。

    Light track observing device
    4.
    发明授权
    Light track observing device 有权
    光轨观察装置

    公开(公告)号:US07046365B1

    公开(公告)日:2006-05-16

    申请号:US10343017

    申请日:2000-07-27

    IPC分类号: G01B9/02

    CPC分类号: G01J11/00 G04F13/02

    摘要: A light pulse from an ultrashort pulse light source 11 is split by a beam splitter 12 and guided, to a detection medium 4, as an excitation pulse and probe pulse having respective predetermined linearly polarized states by an excitation optical system 2 and probe optical system 3, respectively. A light track region which is generated in the detection medium 4 by incidence of the excitation pulse, and in which the refractive index is changed by a nonlinear optical effect, is irradiated with the probe pulse. Of components which have passed through the detection medium 4, a probe pulse component whose polarized state has changed through the light track region is detected by a camera 53 via an analyzer 51 in a photodetection part 5. This realizes a light track observation apparatus capable of directly observing the light track of an excitation pulse.

    摘要翻译: 来自超短脉冲光源11的光脉冲被分束器12分离,并通过激发光学系统2和探针光学系统3被引导到检测介质4作为具有各自的预定线偏振态的激励脉冲和探针脉冲 , 分别。 用探测脉冲照射通过入射激励脉冲而在检测介质4中产生的光线区域,其中折射率由非线性光学效应改变。 已经通过检测介质4的部件中,通过光检测部分5中的分析器51,通过照相机53检测其偏振状态已经通过光轨区域改变的探针脉冲分量。 这实现了能够直接观察激励脉冲的光轨的光轨观察装置。

    Transparent medium processing device
    5.
    发明授权
    Transparent medium processing device 有权
    透明介质处理装置

    公开(公告)号:US06707021B2

    公开(公告)日:2004-03-16

    申请号:US10098317

    申请日:2002-03-18

    IPC分类号: G01J132

    摘要: The transparent medium processing device comprises: a light control section 2 for performing variable control for the status of the laser beam emitted from the light source section 1, and a light status measurement section 4 for measuring the status of the laser beam inside the processing target TG. The light control section is adjusted based on the output of the light status measurement section so that the status of the laser beam inside the processing target becomes a desired status. Since the status of the laser beam inside the processing target, which is made of such a transparent medium as glass, is measured by the light status measurement section, and is fed back to the light control section, laser processing can be executed while maintaining an optimum status at a processing point inside the processing target.

    摘要翻译: 透明介质处理装置包括:用于对从光源部分1发射的激光束的状态执行可变控制的光控制部分2和用于测量处理目标内的激光束状态的光状态测量部分4 TG。 基于光状态测量部的输出调整光控制部,使得处理对象内的激光束的状态成为期望状态。 由于由玻璃制的透明介质构成的处理对象内部的激光束的状态由光状态测量部测量,并被反馈到光控制部,因此可以在维持 处理目标内处理点的最佳状态。

    Ultraviolet curable resin composition and photo solder resist ink using the same
    6.
    发明授权
    Ultraviolet curable resin composition and photo solder resist ink using the same 有权
    紫外线固化树脂组合物和使用其的光阻焊油墨

    公开(公告)号:US06465540B1

    公开(公告)日:2002-10-15

    申请号:US09525932

    申请日:2000-03-14

    IPC分类号: C08F450

    摘要: An ultraviolet curable resin composition includes (A) an ultraviolet curable resin, (B) an epoxy compound having at least two epoxy groups in one molecule, (C) a photopolymerization initiator and (D) a diluent. The ultraviolet curable resin (A) is obtained by the steps of polymerizing an ethylenically unsaturated monomer component containing (a) an ethylenically unsaturated monomer having epoxy group and (b) a compound having at least two ethylenically unsaturated groups in one molecule to prepare a copolymer, reacting the copolymer with (c) an ethylenically unsaturated monomer having carboxyl group to prepare a chemical intermediate, and reacting the chemical intermediate with (d) one of saturated and unsaturated polybasic acid anhydrides. This resin composition will be preferably used to prepare a photo solder resist ink developable with diluted alkaline aqueous solution.

    摘要翻译: 紫外线固化树脂组合物包括(A)紫外线固化树脂,(B)在一个分子中具有至少两个环氧基的环氧化合物,(C)光聚合引发剂和(D)稀释剂。 紫外线硬化性树脂(A)通过以下步骤获得:含有(a)具有环氧基的烯属不饱和单体和(b)在一个分子中具有至少两个烯属不饱和基团的化合物的烯属不饱和单体组分,以制备共聚物 使共聚物与(c)具有羧基的烯属不饱和单体反应以制备化学中间体,并使化学中间体与(d)饱和和不饱和多元酸酐之一反应。 该树脂组合物优选用于制备可用稀碱性水溶液显影的光阻焊油墨。

    Transfer control mechanism for printer and transfer control method
    9.
    发明授权
    Transfer control mechanism for printer and transfer control method 有权
    打印机传输控制机制和传输控制方法

    公开(公告)号:US08346154B2

    公开(公告)日:2013-01-01

    申请号:US12585821

    申请日:2009-09-25

    IPC分类号: G03G15/00

    摘要: A conveyance control mechanism for a printer including an image forming unit forming an image on a sheet being conveyed on a conveyance route, includes a curl detector configured to detect a curl of the sheet conveyed on the conveyance route, in an upstream of the image forming unit on the conveyance route. The conveyance route controller may drive and stop the conveyance route differently depending on whether the curl detector detects a curl at either a front end or at a position other than the front end. When the curl detector detects a curl of the sheet, an image forming route where the image forming unit performs an image formation may be separated and retreated from the conveyance route and the sheet being conveyed may be discharged onto the retreated image forming route.

    摘要翻译: 一种用于打印机的输送控制机构,包括在输送路径上输送的纸张上形成图像的图像形成单元,包括卷曲检测器,被构造成检测在输送路径上传送的纸张的卷曲, 运输路线上的单位。 输送路径控制器可以根据卷曲检测器是否检测到在前端或除了前端之外的位置处的卷曲而不同地驱动和停止输送路径。 当卷曲检测器检测到纸张的卷曲时,图像形成单元执行图像形成的图像形成路径可以从输送路径分离并退回,并且被输送的纸张可以被排出到后退图像形成路径上。

    TOTAL REFLECTION TERAHERTZ WAVE MEASUREMENT DEVICE
    10.
    发明申请
    TOTAL REFLECTION TERAHERTZ WAVE MEASUREMENT DEVICE 有权
    总反射TERAHERTZ波形测量装置

    公开(公告)号:US20110249253A1

    公开(公告)日:2011-10-13

    申请号:US12988158

    申请日:2009-04-27

    IPC分类号: G01J3/00

    摘要: A total reflection terahertz wave measuring apparatus 1 includes a light source 11, a branching part 12, a chopper 13, an optical path length difference adjusting part 14, a polarizer 15, a beam splitter 17, a terahertz wave generating element 20, a filter 25, an internal total reflection prism 31, a terahertz wave detecting element 40, a ¼ wavelength plate 51, a polarization split element 52, a photodetector 53a, a photodetector 53b, a differential amplifier 54, and a lock-in amplifier 55. The internal total reflection prism 31 is a so-called aplanatic prism, and has an entrance surface 31a, an exit surface 31b, and a reflection surface 31c. The terahertz wave generating element 20 and the filter 25 are provided to be integrated with the entrance surface 31a of the internal total reflection prism 31, and the terahertz wave detecting element 40 is provided to be integrated with the exit surface 31b of the internal total reflection prism 31. The filter 25 allows a terahertz wave to be transmitted therethrough and blocks pump light. Accordingly, a total reflection terahertz wave measuring apparatus, which can be downsized, can be realized.

    摘要翻译: 全反射太赫波测量装置1包括光源11,分支部12,斩波器13,光程长度差调节部14,偏振器15,分束器17,太赫兹波发生元件20,滤光器 25,内部全反射棱镜31,太赫兹波检测元件40,1/4波片51,偏振分离元件52,光电检测器53a,光电检测器53b,差分放大器54和锁定放大器55。 内部全反射棱镜31是所谓的平行棱镜,具有入射面31a,出射面31b和反射面31c。 太赫兹波发生元件20和滤波器25设置成与内部全反射棱镜31的入射面31a一体化,太赫兹波检测元件40设置成与内部全反射棱镜31的出射面31b一体化 滤光器25允许太赫兹波被透过并阻止泵浦光。 因此,能够实现小型化的全反射太赫兹波测量装置。