公开(公告)号：US20080123088A1

公开(公告)日：2008-05-29

申请号：US11985823

申请日：2007-11-16

Applicant: Masatoshi Nara ,  Ryo Anraku ,  Takahiro Asai ,  Jun Yamaguchi ,  Akihiko Hattori ,  Takehiko Kitamori ,  Manabu Tokeshi ,  Akihide Hibara ,  Kazuma Mawatari

Inventor： Masatoshi Nara ,  Ryo Anraku ,  Takahiro Asai ,  Jun Yamaguchi ,  Akihiko Hattori ,  Takehiko Kitamori ,  Manabu Tokeshi ,  Akihide Hibara ,  Kazuma Mawatari

IPC: G01N21/41

CPC classification number: G01N21/171 ,  G01N35/08

Abstract: There are provided a microchemical system capable of acquiring a highly accurate TLM output value and a method for calculating TLM output thereof. A microchemical system 1 comprises: a microchemical chip having a channel with a depth t in which a sample flows; an exciting light source 13 adapted to irradiate the sample with an exciting light through an objective lens 10 with a numerical aperture NA; a detecting light source 14 adapted to irradiate the sample with a detecting light coaxially with the exciting light through the objective lens 10; and a PD adapted to receive a transmitted light when the detecting light transmits the sample before and after formation of a thermal lens 12. When a TLM output is calculated in the microchemical system 1 on the basis of a received light amount of the PD, the depth t (μm) is set to the range of 75≦t≦300, the numerical aperture NA is set to the range of 0.04≦NA≦0.1 and chromatic aberrations df (nm) for the exciting light and the detecting light of the objective lens 10 is set to the range of 100≦df≦250.

Abstract translation: 提供了能够获得高度精确的TLM输出值的微化学系统和用于计算TLM输出的方法。 微化学系统1包括：具有样品流过深度t的通道的微化学芯片; 激光光源13，其适于通过具有数值孔径NA的物镜10照射具有激发光的样品; 检测光源14，适于通过物镜10与激发光同轴地检测具有检测光的样品; 以及适于在检测光在形成热透镜12之前和之后透射样品时接收透射光的PD。当在微量化学系统1中基于PD的接收光量计算TLM输出时， 深度t（母体）设定为75 <= t <= 300的范围，数值孔径NA设定为0.04 <= NA <= 0.1的范围，激发光的色差df（nm） 物镜10的光被设定在100 <= df <= 250的范围内。

公开(公告)号：US07048427B2

公开(公告)日：2006-05-23

申请号：US10443563

申请日：2003-05-22

Applicant: Kouzou Fujino ,  Ryo Anraku

Inventor： Kouzou Fujino ,  Ryo Anraku

IPC: F21V7/04

CPC classification number: G02B6/0036 ,  G02B6/0061 ,  G02B6/0068 ,  Y10S385/901

Abstract: A planar light source device comprises a light guide member having light scattering members for scattering light on the rear face of it, and a first LED module and a second LED module arranged on an end face of the light guide member. The light guide member has an area having no light scattering members in the vicinity of the LED modules, and has a corner-cut portion obtained by cutting a corner at an inclination angle θ in the light outputting direction of the first LED module. The first LED module is provided in the middle of the short side face of the light guide member, and the second LED module is provided on the corner-cut portion of the light guide member. The light from the first and second LED modules is outputted into an area where light scattering members are sparse.

公开(公告)号：US20080315118A1

公开(公告)日：2008-12-25

申请号：US12140407

申请日：2008-06-17

Applicant: Ryo Anraku ,  Takashi Fukuzawa

Inventor： Ryo Anraku ,  Takashi Fukuzawa

IPC: G01J1/58

CPC classification number: G01J3/02 ,  G01J3/0208 ,  G01J3/0218 ,  G01J3/024 ,  G01N21/645 ,  G01N2021/6434 ,  G01N2021/6478 ,  G01N2021/6484

Abstract: A fluorescence measurement probe capable of stably receiving a maximum received light amount of a fluorescent light generated from a specimen onto which an excitation light is radiated. The fluorescence measurement probe is applied to a fluorescence measurement system provided with an optical system. A light source emits an excitation light. A detector receives the fluorescent light. A solid light guide path serves as an optical path of the excitation light as well as the fluorescent light. A lens is disposed between an edge surface of the solid light guide path and the specimen. When a radiation angle of the excitation light is set to 2θ at a position where the excitation light is collected by the lens which collects the fluorescent light. A excitation light beam NA expressed by sin θ is set to 0.14 or more and 0.31 or less.

Abstract translation: 一种荧光测量探针，其能够稳定地接收由照射激发光的样本产生的荧光的最大接收光量。 将荧光测量探针应用于配备有光学系统的荧光测量系统。 光源发出激发光。 检测器接收荧光灯。 固体光导路径用作激发光以及荧光的光路。 透镜设置在固体光导路径的边缘表面和样本之间。 当在由收集荧光的透镜收集激发光的位置处激发光的辐射角设定为2θ时， 由sinθ表示的激发光束NA设定为0.14以上且0.31以下。

公开(公告)号：US20070071662A1

公开(公告)日：2007-03-29

申请号：US11535171

申请日：2006-09-26

Applicant: Shinya Kawakita ,  Ryo Anraku ,  Masashi Ogino ,  Osamu Nakamura ,  Tsutomu Terazaki

Inventor： Shinya Kawakita ,  Ryo Anraku ,  Masashi Ogino ,  Osamu Nakamura ,  Tsutomu Terazaki

IPC: B01J8/00

CPC classification number: B01J12/007 ,  B01J19/0093 ,  B01J2219/00135 ,  B01J2219/00783 ,  B01J2219/00788 ,  B01J2219/00835 ,  B01J2219/00873 ,  C01B3/38 ,  C01B2203/0227 ,  C01B2203/066 ,  C01B2203/085 ,  C01B2203/1005 ,  H01M8/0618

Abstract: A fuel cell fuel reformer including a gas reactor for producing reformed fuel and an electric heater for heating the gas reactor. An external container includes an inner vacuum chamber, which accommodates the gas reactor and the electric heater, and receiving portions. An electric wire extends through the external container to supply electric power to the electric heater in the inner vacuum chamber. Fluid tubes are received by the receiving portions and extend through the external container. A sealant seals gaps between the fluid tubes and the receiving portions. The gas reactor, the fluid tubes, the external container, and the sealant each have thermal expansion coefficients, with the maximum one of the thermal expansion coefficients being ten-times the minimum one of the thermal expansion coefficients or less.

Abstract translation: 一种燃料电池燃料重整器，包括用于生产重整燃料的气体反应器和用于加热气体反应器的电加热器。 外部容器包括容纳气体反应器和电加热器的内部真空室和容纳部分。 电线延伸穿过外部容器以向内部真空室中的电加热器供电。 流体管由接收部分接收并延伸穿过外部容器。 密封剂密封流体管和接收部分之间的间隙。 气体反应器，流体管，外部容器和密封剂各自具有热膨胀系数，热膨胀系数中的最大一个是热膨胀系数的最小值之一的十倍。