公开(公告)号：US20110050984A1

公开(公告)日：2011-03-03

申请号：US12517857

申请日：2007-12-13

Applicant: Volkmar Schulz

Inventor： Volkmar Schulz

IPC: H04N5/225

CPC classification number: C12M35/02 ,  G01J3/10 ,  G01J3/2823 ,  G01J3/50 ,  G01J3/501 ,  G03B33/04 ,  H04N1/60

Abstract: A method and a System to obtain a more realistic image of an object by acquiring a plurality of e.g. monochromatic images without increasing the structure of a, for example, charged coupled device array by a sequential acquisition of the images by using a colour sequential flash.

Abstract translation: 一种方法和系统，用于通过获取多个例如对象来获得对象的更逼真的图像。 通过使用彩色顺序闪光来顺序采集图像，而不增加例如带电耦合器件阵列的结构的单色图像。

公开(公告)号：US20110044858A1

公开(公告)日：2011-02-24

申请号：US12938224

申请日：2010-11-02

Applicant: Claudia B. Jaffe ,  Steven M. Jaffe ,  Michieal L. Jones

Inventor： Claudia B. Jaffe ,  Steven M. Jaffe ,  Michieal L. Jones

IPC: G01N21/64 ,  C40B60/12 ,  G01J1/58

CPC classification number: G01J3/10 ,  G01N21/253 ,  G01N21/255 ,  G01N21/4788 ,  G01N21/51 ,  G01N21/53 ,  G01N21/6452 ,  G01N2021/6419 ,  G01N2021/6469 ,  G01N2021/6484 ,  G01N2201/06193

Abstract: The invention relates to a light source for irradiating molecules present in a detection volume with one or more selected wavelengths of light and directing the fluorescence, absorbance, transmittance, scattering onto one or more detectors. Molecular interactions with the light allow for the identification and quantitation of participating chemical moieties in reactions utilizing physical or chemical tags, most typically fluorescent and chromophore labels. The invention can also use the light source to separately and simultaneously irradiate a plurality of capillaries or other flow confining structures with one or more selected wavelengths of light and separately and simultaneously detect fluorescence produced within the capillaries or other flow confining structures. In various embodiments, the flow confining structures can allow separation or transportation of molecules and include capillary, micro bore and milli bore flow systems. The capillaries are used to separate molecules that are chemically tagged with appropriate fluorescent or chromophore groups.

Abstract translation: 本发明涉及用于用存在于检测体积中的分子照射一种或多种所选波长的光并将荧光，吸光度，透射率，散射引导到一个或多个检测器上的光源。 与光的分子相互作用允许使用物理或化学标签（最常见的荧光和发色团标记）在反应中鉴定和定量参与的化学部分。 本发明还可以使用光源单独地并且同时用一个或多个选择的波长的光照射多个毛细管或其它流动约束结构，并且分别并且同时检测在毛细管或其它流动限制结构内产生的荧光。 在各种实施方案中，流动限制结构可以允许分子的分离或运输，并且包括毛细管，微孔和毫里流系统。 毛细血管用于分离用适当荧光或发色团组化学标记的分子。

公开(公告)号：US20110031404A1

公开(公告)日：2011-02-10

申请号：US12641015

申请日：2009-12-17

Applicant: Jae Hun KIM ,  Seok LEE ,  Deok Ha WOO ,  Sun Ho KIM ,  Young Tae BYUN ,  Shin Geun KIM

Inventor： Jae Hun KIM ,  Seok LEE ,  Deok Ha WOO ,  Sun Ho KIM ,  Young Tae BYUN ,  Shin Geun KIM

IPC: G01J5/02 ,  G02F1/35 ,  G02F1/355 ,  G02F1/37

CPC classification number: G01J3/10 ,  G02F1/3501 ,  G02F1/365 ,  G02F1/37 ,  G02F2001/3507 ,  G02F2001/3528 ,  G02F2203/13

Abstract: The present invention relates to an apparatus and method for simultaneously generating terahertz wave and supercontinuum, and a spectroscopy method using the apparatus and method, in which terahertz wave and supercontinuum can be efficiently and simultaneously generated by a single device after taking into consideration the problems of conventional methods in which terahertz wave and supercontinuum were generated by separate devices. The apparatus for simultaneously generating terahertz wave and supercontinuum, includes a terahertz wave generation unit for generating a terahertz wave, and a supercontinuum generation unit for generating a supercontinuum based on nonlinear effect, wherein the terahertz wave and the supercontinuum are simultaneously generated using a single input light signal.

Abstract translation: 本发明涉及同时产生太赫兹波和超连续谱的装置和方法，以及一种使用该装置和方法的光谱方法，其中考虑到以下问题，可以通过单个装置有效同时产生太赫波和超连续谱 太赫兹波和超连续谱由单独的装置产生的常规方法。 用于同时产生太赫兹波和超连续谱的装置包括用于产生太赫兹波的太赫兹波产生单元和用于产生基于非线性效应的超连续谱的超连续谱产生单元，其中使用单个输入同时产生太赫兹波和超连续谱 光信号。

公开(公告)号：US07878965B2

公开(公告)日：2011-02-01

申请号：US11486912

申请日：2006-07-14

Applicant: Constance Haber ,  Allan Gardiner

Inventor： Constance Haber ,  Allan Gardiner

IPC: A61N2/00

CPC classification number: G01J3/02 ,  A61B5/0488 ,  A61B5/0531 ,  A61B5/4519 ,  A61B5/4528 ,  A61N5/0619 ,  A61N2005/0663 ,  G01J3/0229 ,  G01J3/0232 ,  G01J3/10 ,  G01J2003/1213

Abstract: This invention provides methods for treating a variety of disorders using localized electromagnetic radiation directed at excitable tissues, including nerves, muscles and blood vessels. By controlling the wavelength, the wavelength bandpass, pulse duration, intensity, pulse frequency, and/or variations of those characteristics over time, and by selecting sites of exposure to electromagnetic radiation, improvements in the function of different tissues and organs can be provided. By monitoring physiological variables such as muscle tone and activity, temperature gradients, surface electromyography, blood flow and others, the practitioner can optimize a therapeutic regimen suited for the individual patient.

公开(公告)号：US20110019192A1

公开(公告)日：2011-01-27

申请号：US12934247

申请日：2009-03-16

Applicant: Kenji Imura

Inventor： Kenji Imura

IPC: G01J3/46

CPC classification number: G01J3/50 ,  G01J3/10 ,  G01J3/2803 ,  G01J3/501 ,  G01J3/502 ,  G01J3/524

Abstract: An object of the present invention is to provide a spectral characteristic measuring system, a spectral characteristic measuring instrument, a data processing apparatus, and a program, which make it possible to appropriately correct an influence of an illumination light variation caused by a temperature rise in a semiconductor light-emitting element due to light emission, in a scanning type color measurement system or the like which sequentially measures many color samples 1n and in which a semiconductor light-emitting element such as an LED is used as a light source and a reference system is not provided.Spectral distributions of illumination lights which are measured before and after the color sample is measured are interpolated, to thereby estimate a spectral distribution of an illumination light at the time when a spectral distribution of the color sample is obtained. Spectral characteristics of the color sample are identified based on the spectral distribution of the reflected light or the transmitted light reflected by or transmitted through the color sample and the estimated spectral distribution.

Abstract translation: 本发明的目的是提供一种光谱特性测量系统，光谱特征测量仪器，数据处理设备和程序，其可以适当地校正由温度升高引起的照明光变化的影响 在扫描型色彩测量系统等中，由于发光而导致的半导体发光元件，其顺序地测量许多颜色样本1n，并且其中诸如LED的半导体发光元件用作光源和参考 系统不提供。 内插测量颜色样本之前和之后测量的照明光的光谱分布，从而估计获得彩色样本的光谱分布时的照明光的光谱分布。 基于反射光的光谱分布或由颜色样本反射或透射的透射光的光谱分布和估计的光谱分布来识别颜色样本的光谱特性。

公开(公告)号：US07876955B2

公开(公告)日：2011-01-25

申请号：US12264056

申请日：2008-11-03

Applicant: Yasuhiro Komiya ,  Toru Wada ,  Osamu Konno ,  Takeyuki Ajito ,  Tomoyuki Nakamura

Inventor： Yasuhiro Komiya ,  Toru Wada ,  Osamu Konno ,  Takeyuki Ajito ,  Tomoyuki Nakamura

IPC: G06K9/00 ,  G03D13/00 ,  A61B1/04 ,  A61C19/10

CPC classification number: G01J3/32 ,  A61B5/0013 ,  A61B5/0088 ,  A61B5/02 ,  A61C13/0004 ,  A61C13/082 ,  G01J3/02 ,  G01J3/0218 ,  G01J3/0224 ,  G01J3/0262 ,  G01J3/0264 ,  G01J3/0272 ,  G01J3/0291 ,  G01J3/10 ,  G01J3/463 ,  G01J3/50 ,  G01J3/501 ,  G01J3/508 ,  G01J3/51 ,  G01J3/513 ,  G01J3/524 ,  G06F19/00 ,  H04N5/2256 ,  H04N9/045 ,  H04N13/15 ,  H04N2209/043 ,  H04N2209/044

Abstract: An image processing system is used for dentistry. Upon creating a false tooth of a patient (59), a plurality of illuminating light of LEDs with different wavelengths emit light and a photographing apparatus (1A) photographs a tooth portion of the patient (59), thereby obtaining image data. The image data is sent to a dentistry filing system (2A) serving as a processing apparatus, and color reproducing data is obtained by calculation. The color reproducing data is sent to a dentistry factory (55) via a public line. Data is searched from a database (56) for calculating a ceramic compounding ratio, compound data of the ceramic false tooth is obtained, matching the color of the tooth portion of the patient (59), and the false tooth approximate to the tooth color of the patient (59) is created.

Abstract translation: 图像处理系统用于牙科。 在产生患者（59）的假齿时，具有不同波长的LED的多个照明光发光，摄影装置（1A）照射患者（59）的牙齿部分，从而获得图像数据。 图像数据被发送到用作处理装置的牙科归档系统（2A），并且通过计算获得颜色再现数据。 彩色再现数据通过公共线路发送到牙科工厂（55）。 从数据库（56）中搜索用于计算陶瓷配合比的数据，获得陶瓷假牙的化合物数据，匹配患者（59）的牙齿部分的颜色，以及与牙齿颜色近似的假牙 创建患者（59）。

公开(公告)号：US20110006663A1

公开(公告)日：2011-01-13

申请号：US12795356

申请日：2010-06-07

Applicant: Margaret L. Tuma ,  Joseph S. Collura ,  Henry Helvajian ,  Michael D. Pocha ,  Glenn A. Meyer ,  Charles F. McConaghy ,  Barry L. Olsen ,  William W. Hansen

Inventor： Margaret L. Tuma ,  Joseph S. Collura ,  Henry Helvajian ,  Michael D. Pocha ,  Glenn A. Meyer ,  Charles F. McConaghy ,  Barry L. Olsen ,  William W. Hansen

IPC: H01K1/14

CPC classification number: H01K1/14 ,  G01J3/10 ,  H01K1/18 ,  H01K7/00

Abstract: An ultraminiature light source using a double-spiral shaped tungsten filament includes end contact portions which are separated to allow for radial and length-wise unwinding of the spiral. The double-spiral filament is spaced relatively far apart at the end portions thereof so that contact between portions of the filament upon expansion is avoided. The light source is made by fabricating a double-spiral ultraminiature tungsten filament from tungsten foil and housing the filament in a ceramic package having a reflective bottom and a well wherein the filament is suspended. A vacuum furnace brazing process attaches the filament to contacts of the ceramic package. Finally, a cover with a transparent window is attached onto the top of the ceramic package by solder reflow in a second vacuum furnace process to form a complete hermetically sealed package.

Abstract translation: 使用双螺旋形钨丝的超微型光源包括端部接触部分，其被分离以允许螺旋的径向和纵向展开。 双螺旋丝在其端部处间隔相对较远，从而避免了在膨胀时细丝部分之间的接触。 光源通过从钨箔制造双螺旋超薄钨丝制成，并将灯丝容纳在具有反射底部和阱的陶瓷封装中，其中灯丝被悬挂。 真空炉钎焊工艺将灯丝连接到陶瓷封装的触点。 最后，通过在第二真空炉工艺中通过回流焊接将具有透明窗口的盖子附接到陶瓷封装的顶部，以形成完整的密封封装。

公开(公告)号：US07869040B1

公开(公告)日：2011-01-11

申请号：US12184419

申请日：2008-08-01

Applicant: Hidong Kwak ,  Shankar Krishnan ,  Shing Lee ,  Haixing Zou

Inventor： Hidong Kwak ,  Shankar Krishnan ,  Shing Lee ,  Haixing Zou

IPC: G01J4/00

CPC classification number: G01J3/10 ,  G01B11/0641 ,  G01J3/02 ,  G01J3/0208 ,  G01J3/021 ,  G01J3/0224 ,  G01J3/0237 ,  G01J3/14 ,  G01J3/1809 ,  G01N21/211 ,  G01N21/9501 ,  G01N21/956 ,  G01N2021/212 ,  G01N2021/213 ,  G01N2021/95676

Abstract: An illumination subsystem configured to provide illumination for a measurement system includes first and second light sources configured to generate light for measurements in different wavelength regimes. The illumination subsystem also includes a TIR prism configured to be moved into and out of an optical path from the first and second light sources to the measurement system. If the TIR prism is positioned out of the optical path, light from only the first light source is directed along the optical path. If the TIR prism is positioned in the optical path, light from only the second light source is directed along the optical path. Various measurement systems are also provided. One measurement system includes an optical subsystem configured to perform measurements of a specimen using light in different wavelength regimes directed along a common optical path. The different wavelength regimes include vacuum ultraviolet, ultraviolet, visible, and near infrared wavelength regimes.

Abstract translation: 被配置为为测量系统提供照明的照明子系统包括被配置为产生用于不同波长方案中的测量的光的第一和第二光源。 照明子系统还包括被配置为移入和移出从第一和第二光源到测量系统的光路的TIR棱镜。 如果TIR棱镜位于光路外，则仅沿着光路引导来自第一光源的光。 如果TIR棱镜位于光路中，则仅沿着光路引导来自第二光源的光。 还提供了各种测量系统。 一个测量系统包括光学子系统，该光学子系统被配置为使用沿着公共光路引导的不同波长方式的光来对样本进行测量。 不同的波长方案包括真空紫外线，紫外线，可见光和近红外波长方案。

公开(公告)号：US20100330611A1

公开(公告)日：2010-12-30

申请号：US12882131

申请日：2010-09-14

Applicant: Mary-Ann Mycek ,  Malavika Chandra ,  James Scheiman ,  Robert H. Wilson ,  Diane Simeone ,  Barbara McKenna ,  Julianne Purdy ,  Jeremy Taylor ,  Oliver Lee

Inventor： Mary-Ann Mycek ,  Malavika Chandra ,  James Scheiman ,  Robert H. Wilson ,  Diane Simeone ,  Barbara McKenna ,  Julianne Purdy ,  Jeremy Taylor ,  Oliver Lee

IPC: C12Q1/02 ,  C12M1/34

CPC classification number: A61B5/415 ,  A61B5/0071 ,  A61B5/0075 ,  A61B5/0084 ,  A61B5/418 ,  A61B5/7264 ,  A61B5/7267 ,  G01J3/10 ,  G01J3/4406 ,  G01N21/474 ,  G01N21/6408 ,  G01N21/645 ,  G01N21/6486 ,  G01N33/57438 ,  G01N2021/4742 ,  G01N2021/6484 ,  G01N2201/1293

Abstract: Multimodal optical spectroscopy systems and methods produce a spectroscopic event to obtain spectroscopic response data from biological tissue and compare the response data with an empirical equation configured to correlate the measured response data and the most probable attributes of the tissue, thus facilitating classification of the tissue based on those attributes for subsequent biopsy or remedial measures as necessary.

Abstract translation: 多光谱光谱系统和方法产生光谱事件以从生物组织获得光谱响应数据，并将响应数据与配置为将测量的响应数据和组织的最可能属性相关联的经验方程进行比较，从而促进基于组织的分类 关于随后活检的这些属性或必要的补救措施。

公开(公告)号：US20100321615A1

公开(公告)日：2010-12-23

申请号：US12487182

申请日：2009-06-18

Applicant: Joshua J. THORNES ,  Robin A. REEDER ,  Steven R. WILKINSON

Inventor： Joshua J. THORNES ,  Robin A. REEDER ,  Steven R. WILKINSON

IPC: G02F1/1335 ,  G02F1/01

CPC classification number: H01S3/0057 ,  G01J3/0224 ,  G01J3/10 ,  G01J11/00 ,  G02B26/06 ,  G02F2203/12 ,  G02F2203/26 ,  H01S3/0014

Abstract: An optical pulse shaper includes an optical delay line; a spatial light modulator placed at the Fourier plane of the optical delay line having a spectral amplitude spatial light modulator; a spectral phase and polarization ellipticity spatial light modulator; and a spectral polarization rotator; and a controller configured to independently control an amplitude, a phase and polarization ellipticity, and a linear polarization of an optical pulse. A method for shaping an optical pulse is also provided.

Abstract translation: 光脉冲整形器包括光延迟线; 放置在具有光谱振幅空间光调制器的光延迟线的傅立叶平面处的空间光调制器; 光谱相位和极化椭圆空间光调制器; 和光谱偏振旋转器; 以及控制器，其被配置为独立地控制光脉冲的幅度，相位和偏振椭圆率以及线偏振。 还提供了一种用于整形光脉冲的方法。