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131. 发明申请

US20170045457A1 GLOW DISCHARGE SPECTROSCOPY METHOD AND SYSTEM FOR MEASURING IN SITU THE ETCH DEPTH OF A SAMPLE 审中-公开
标题翻译：用于测量样品表面深度的玻璃放电光谱法和系统
公开(公告)号：US20170045457A1
公开(公告)日：2017-02-16
申请号：US15305367
申请日：2015-04-28
申请人： HORIBA JOBIN YVON SAS
发明人： Simon RICHARD , Jean-Paul GASTON , Olivier ACHER , Patrick CHAPON
IPC分类号： G01N21/67 , G01N21/68 , G01B11/22
CPC分类号： G01N21/67 , G01B11/22 , G01J3/443 , G01N21/68 , G01N2201/06113 , G01N2201/0612 , H01J37/32018 , H01J37/32963 , H01J37/32972 , H01J2237/334
摘要： A glow discharge spectrometry system includes a glow discharge lamp suitable for receiving a solid sample (10) and forming a glow discharge etching plasma (19). The system (100) for measuring in situ the depth of the erosion crater generated by etching of the sample (10) includes an optical separator (3), optical elements (4) suitable for directing a first incident beam (21) toward a first zone (11) of the sample, the first zone being exposed to the etching plasma, and a second incident beam (22) toward a second zone (12) of the same side of the sample, the second zone being protected from the etching plasma, respectively, and an optical recombining device (3) suitable for forming an interferometric beam (30) so as to determine the depth (d) of the erosion crater.
摘要翻译：辉光放电光谱测定系统包括适于接收固体样品（10）并形成辉光放电蚀刻等离子体（19）的辉光放电灯。用于原位测量通过蚀刻样品（10）产生的侵蚀坑的深度的系统（100）包括光学分离器（3），适于将第一入射光束（21）引向第一入射光束（21）的光学元件（4）区域（11），第一区域暴露于蚀刻等离子体，以及朝向样品相同侧的第二区域（12）的第二入射光束（22），第二区域被保护免受蚀刻等离子体以及适于形成干涉光束（30）以便确定侵蚀坑的深度（d）的光学重组装置（3）。

132. 发明授权

US09394786B2 Method and system for in situ, continuous and real-time analysis of mineral content in drilling debris 有权
标题翻译：钻井废弃物矿物含量的原位，连续和实时分析方法与系统
公开(公告)号：US09394786B2
公开(公告)日：2016-07-19
申请号：US14476480
申请日：2014-09-03
申请人： INGENIEROS MATEMÁTICOS CONSULTORES ASOCIADOS S.A.
发明人： Mario Manuel Duran Toro , Ricardo Oliver Hein Hoernig , Pedro Ramaciotti Morales , Pedro Antonio Escárate Monetta
IPC分类号： E21B49/00 , E21B49/02
CPC分类号： E21B49/00 , E21B49/003 , E21B49/005 , E21B49/02 , G01N21/171 , G01N21/3103 , G01N21/33 , G01N21/3563 , G01N21/6404 , G01N21/643 , G01N21/65 , G01N21/67 , G01N21/72 , G01N21/73 , G01N21/85 , G01N33/24 , G01N2021/1706 , G01N2021/8592
摘要： A method and a system for in situ measuring and analyzing, in a continuous, non-intrusive manner in real-time, one or more compounds, typically minerals present in debris from drilling or some similar material, in powder, comminuted solids or slurry form is disclosed. The method and system provide real-time, non-intrusive, continuous in situ determination of the grade of valuable minerals present in drilling pits debris generated during excavation, with a relatively low measurement error.
摘要翻译：用于实时地以连续，非侵入式方式实时地测量和分析一种或多种化合物的方法和系统，所述化合物典型地存在于来自钻井或某些类似材料的碎屑中，以粉末，粉碎的固体或浆料形式存在被披露。该方法和系统提供实时，非侵入性，连续原位确定挖掘过程中产生的钻孔碎屑中存在的有价值矿物的等级，测量误差较小。

133. 发明授权

US09097666B2 Method and device for measuring gas component concentration inside a glass unit 有权
标题翻译：用于测量玻璃单元内的气体组分浓度的方法和装置
公开(公告)号：US09097666B2
公开(公告)日：2015-08-04
申请号：US14118251
申请日：2012-05-18
申请人： Kai Niiranen , Erno Launo
发明人： Kai Niiranen , Erno Launo
IPC分类号： G01N21/00 , G01N21/61 , G01N21/39 , G01B11/06 , G01J3/443 , G01N21/55 , G01N21/03 , G01N21/67
CPC分类号： G01N21/61 , G01B11/06 , G01J3/443 , G01N21/031 , G01N21/39 , G01N21/55 , G01N21/67 , G01N2021/0396
摘要： A non-invasive method for determining a concentration of a gas component in a gas mixture contained in a spacing of a glass unit having at least two glass sheets spaced apart from each other and forming the spacing. One or more light beams is applied at an angle to the surface of the glass unit, wherein the wavelength of the emitted light beam is varied around or over the at least one absorption line of the interest gas component. The light beams transmitted through or reflected from at least one surface or interface locating at the opposite side of the spacing are collected by a detector and non-linear variations in the intensity of the transmitted or reflected light beams over an absorption line of the interest gas is then component determined. The concentration of the gas component to be measured is determined based on the non-linear variations in the intensity.
摘要翻译：一种非侵入性方法，用于确定包含在具有彼此间隔开的至少两个玻璃板的玻璃单元的间隔中的气体混合物中的气体组分的浓度并形成间隔。一个或多个光束以与玻璃单元的表面成一定角度施加，其中发射光束的波长在感兴趣气体组分的至少一个吸收线周围或周围变化。通过检测器收集透射通过或从位于该间隔的相对侧的至少一个表面或界面反射的光束，并且在感兴趣气体的吸收线上的透射或反射光束的强度的非线性变化然后是组件确定。基于强度的非线性变化来确定要测量的气体成分的浓度。

134. 发明申请

US20150085283A1 OPTICAL MEASUREMENT PROBE, AND OPTICAL MEASUREMENT DEVICE PROVIDED WITH THE SAME 有权
标题翻译：光学测量探头和光学测量装置
公开(公告)号：US20150085283A1
公开(公告)日：2015-03-26
申请号：US14481230
申请日：2014-09-09
申请人： SHIMADZU CORPORATION , HONDA MOTOR CO., LTD.
发明人： Tetsuya Nagai , Nobuyuki Iwai , Yasuyuki Furukawa , Ryoji Hiraoka , Isao Azumagakito , Satoru Okada
IPC分类号： G01N21/958 , G02B1/02 , G02B6/26 , G01M15/04 , G01N21/94
CPC分类号： G01N21/958 , F02D35/022 , F02P13/00 , G01D5/353 , G01J3/0218 , G01J5/0014 , G01J5/042 , G01J5/043 , G01J5/0821 , G01M15/042 , G01N21/15 , G01N21/67 , G01N21/94 , G01N2201/08 , G02B1/02 , G02B1/14 , G02B6/262 , G02B7/007 , H01T13/40
摘要： There are provided an optical measurement probe capable of obtaining a more stable measurement result, and an optical measurement device provided with the same. An incidence surface of an optical window to be used in a high temperature environment is covered by a deposited film. The optical window is formed of sapphire, and the deposited film is formed from SiO2. Adhesion of dirt to the incidence surface, and an influence, on a measurement result, of the adhesion of dirt on the incidence surface can thereby be prevented, and a more stable measurement result can be obtained.
摘要翻译：提供了能够获得更稳定的测量结果的光学测量探针和具有该光学测量探针的光学测量装置。在高温环境中使用的光学窗口的入射面被沉积膜覆盖。光学窗口由蓝宝石形成，沉积膜由SiO2形成。因此可以防止污垢对入射面的附着，以及污染物对入射面的粘附的测定结果的影响，能够得到更稳定的测定结果。

135. 发明申请

US20150068806A1 METHOD AND SYSTEM FOR IN SITU, CONTINUOUS AND REAL-TIME ANALYSIS OF MINERAL CONTENT IN DRILLING DEBRIS 有权
标题翻译：矿井内矿物含量的连续和实时分析方法与系统
公开(公告)号：US20150068806A1
公开(公告)日：2015-03-12
申请号：US14476480
申请日：2014-09-03
申请人： INGENIEROS MATEMÁTICOS CONSULTORES ASOCIADOS S.A.
发明人： Mario Manuel DURAN TORO , Ricardo Oliver HEIN HOERNIG , Pedro RAMACIOTTI MORALES , Pedro Antonio ESCÁRATE MONETTA
IPC分类号： E21B49/00 , E21B49/02
CPC分类号： E21B49/00 , E21B49/003 , E21B49/005 , E21B49/02 , G01N21/171 , G01N21/3103 , G01N21/33 , G01N21/3563 , G01N21/6404 , G01N21/643 , G01N21/65 , G01N21/67 , G01N21/72 , G01N21/73 , G01N21/85 , G01N33/24 , G01N2021/1706 , G01N2021/8592
摘要： A method and a system for in situ measuring and analyzing, in a continuous, non-intrusive manner in real-time, one or more compounds, typically minerals present in debris from drilling or some similar material, in powder, comminuted solids or slurry form is disclosed. The method and system provide real-time, non-intrusive, continuous in situ determination of the grade of valuable minerals present in drilling pits debris generated during excavation, with a relatively low measurement error.
摘要翻译：用于实时地以连续，非侵入式方式实时地测量和分析一种或多种化合物的方法和系统，所述化合物典型地存在于来自钻井或某些类似材料的碎屑中，以粉末，粉碎的固体或浆料形式存在被披露。该方法和系统提供实时，非侵入性，连续原位确定挖掘过程中产生的钻孔碎屑中存在的有价值矿物的等级，测量误差较小。

136. 发明授权

US08968286B2 Nano discharges in liquids 有权
标题翻译：纳米液体中排出
公开(公告)号：US08968286B2
公开(公告)日：2015-03-03
申请号：US13055998
申请日：2009-08-19
申请人： David Staack , Alexander Gutsol , Alexander Fridman , Yury Gogotsi , Gennady Friedman
发明人： David Staack , Alexander Gutsol , Alexander Fridman , Yury Gogotsi , Gennady Friedman
IPC分类号： A61B18/00 , G01N27/68 , B82Y15/00 , G01N21/67
CPC分类号： A61B18/042 , A61B2018/00125 , B82Y15/00 , G01N21/67 , G01N27/68
摘要： The present invention is direct to a nano-probe corona tool and uses thereof. A nano-probe corona tool is disclosed having a tip with a diameter in the nano-scale, typically around 100 nm. The nano-probe corona tool is constructed of electrically conductive material. On the other end of the tool, a pulsed voltage source outputs a pulsed voltage to generated a pulsed electrical potential at the tip. The pulsed electrical potential at the tip causes a plasma discharge corona to occur. Uses of the corona discharge include, but are not limited to, optical emission spectroscopy, in the enhancement of deposition of coatings and nanoscale welding, e.g., nanotube or nanowires to a contact pad and welding two nanowires together, and in nanoscale surgery. For example, a nano-probe comprising CNTs may be inserted into cell membranes. The resulting corona discharge may be used to destroy tumors within the cell.
摘要翻译：本发明直接涉及纳米探针电晕工具及其应用。公开了纳米探针电晕工具，其具有直径在纳米级的尖端，通常为约100nm。纳米探针电晕工具由导电材料构成。在工具的另一端，脉冲电压源输出脉冲电压以在尖端产生脉冲电位。尖端处的脉冲电位导致发生等离子体放电电晕。电晕放电的使用包括但不限于光学发射光谱法，用于增强涂层的沉积和纳米尺度焊接，例如纳米管或纳米线到接触焊盘，并将两个纳米线焊接在一起，以及在纳米级手术中。例如，可以将包含CNT的纳米探针插入细胞膜。所产生的电晕放电可用于破坏细胞内的肿瘤。

137. 发明申请

US20150029505A1 Spark-Induced Breakdown Spectroscopy Electrode Assembly 有权
标题翻译：火花诱导分解光谱电极组件
公开(公告)号：US20150029505A1
公开(公告)日：2015-01-29
申请号：US13948767
申请日：2013-07-23
申请人： Massachusetts Institute of Technology
发明人： Shane M. Tysk , John P. D'Angelo , William D. Herzog
IPC分类号： G01N21/67
CPC分类号： G01N21/67 , G01J3/021 , G01J3/443
摘要： A spark-induced breakdown spectroscopy apparatus can have a housing with an inlet and an outlet that define an analyte flow path. A laser can define a laser pathway generally transverse to an intersecting the analyte flow path. A pair of electrodes, which can have insulating shields, can be mounted within the housing and can define a spark path. An optical detection element defines an optical path. The apparatus can be used to identify an aerosolized analyte.
摘要翻译：火花引发的击穿光谱装置可以具有壳体，其具有限定分析物流动路径的入口和出口。激光器可以定义通常横向于与分析物流动路径相交的激光路径。可以具有绝缘屏蔽的一对电极可以安装在壳体内并且可以限定火花通路。光学检测元件限定光路。该装置可用于鉴定雾化分析物。

138. 发明申请

US20150015881A1 GAS CONCENTRATION ESTIMATION DEVICE 审中-公开
标题翻译：气体浓度估算装置
公开(公告)号：US20150015881A1
公开(公告)日：2015-01-15
申请号：US14369020
申请日：2012-12-26
申请人： IMAGINEERING, Inc.
发明人： Yuji Ikeda
IPC分类号： G01N21/68 , G01N33/00 , G01N21/67
CPC分类号： G01N21/68 , G01N1/2252 , G01N21/67 , G01N33/004 , G01N33/0062 , G01N2021/8578 , G01N2201/067
摘要： The present invention aims at realizing a gas concentration estimation apparatus with versatility wherein the gas concentration estimation apparatus estimates concentration of a target component in an analyte gas by analyzing a light emitted from plasma of the analyte gas. The present invention is directed to a gas concentration estimation apparatus including: a plasma generation device that turns an analyte gas into a plasma state; and an analysis device that analyzes plasma light emitted from the plasma generated by the plasma generation device and estimates concentration of a target component in the analyte gas wherein the analysis device estimates the concentration of the target component based on luminescence intensity of a wavelength component corresponding to luminescence from a predetermined radical within the plasma light, and the predetermined radical is different in atomic structure from the target component and includes an atom or a molecule separated from the target component.
摘要翻译：本发明旨在实现具有多功能性的气体浓度估计装置，其中气体浓度估计装置通过分析从分析物气体的等离子体发射的光来估计分析物气体中的目标成分的浓度。本发明涉及一种气体浓度估计装置，包括：将分析气体转换成等离子体状态的等离子体产生装置; 以及分析装置，其分析由等离子体产生装置产生的等离子体光发射的等离子体光，并估计分析装置中的目标成分的浓度，其中分析装置基于对应于对应于...的波长成分的发光强度来估计目标成分的浓度在等离子体光中来自预定基团的发光，并且预定基团的原子结构与目标成分不同，并且包括与目标成分分离的原子或分子。

139. 发明授权

US08643838B2 Emission spectrophotometer 有权
标题翻译：排放分光光度计
公开(公告)号：US08643838B2
公开(公告)日：2014-02-04
申请号：US13050701
申请日：2011-03-17
申请人： Toshiya Habu , Eizo Kawato
发明人： Toshiya Habu , Eizo Kawato
IPC分类号： G01J3/42 , G01J3/30 , G01J3/28 , G01J3/44 , G01J1/58 , G01R27/26
CPC分类号： G01N21/67 , G01J3/443
摘要： An emission spectrophotometer capable of inhibiting non-uniformity of spectral intensities of component elements is provided. The emission spectrophotometer generates pulse light emission by supplying an energy accumulated in an electricity accumulating and discharging unit to a gap between an electrode and a test material, and the emission spectrophotometer includes a detection unit, for detecting an energy charged to the electricity accumulating and discharging unit before the pulse light emission; and a detection unit, for detecting an energy remaining in the electricity accumulating and discharging unit after the pulse light emission. It is determined whether the detected light is emitted by fully using the energy accumulated in the electricity accumulating and discharging unit.
摘要翻译：提供能够抑制组分元素的光谱强度不均匀的发射分光光度计。发射分光光度计通过将累积在蓄电单元中的能量供给到电极和测试材料之间的间隙来产生脉冲发光，并且发射分光光度计包括检测单元，用于检测充电到蓄电和放电的能量单位前脉冲发光; 以及检测单元，用于检测在脉冲发光之后积蓄和排出单元中剩余的能量。通过充分利用蓄积在蓄电单元中的能量来判断检测出的光是否发出。

140. 发明授权

US08581494B2 Discharge lamp for GDS with an axial magnetic field 有权
标题翻译：具有轴向磁场的GDS放电灯
公开(公告)号：US08581494B2
公开(公告)日：2013-11-12
申请号：US13147906
申请日：2010-02-10
申请人： Mihai Ganciu-Petcu , Virgil Mircea Udrea , Agnes Tempez , Patrick Chapon
发明人： Mihai Ganciu-Petcu , Virgil Mircea Udrea , Agnes Tempez , Patrick Chapon
IPC分类号： H01J7/24
CPC分类号： H01J61/02 , G01N21/67 , G01N21/68
摘要： A glow discharge spectrometer discharge lamp includes: a lamp body having a vacuum enclosure connected to pump elements and to injector elements for injecting an inert gas into the enclosure; a hollow cylindrical first electrode of longitudinal axis X-X′; a second electrode for receiving a sample for analysis and for holding the sample facing one end of the cylindrical electrode; electric field generator including an applicator for applying to the terminals of the electrodes an electric field that is continuous, pulsed, radiofrequency, or hybrid, and suitable for generating a glow discharge plasma in the presence of the gas; coupler elements for coupling the discharge lamp to a spectrometer suitable for measuring at least one component of the plasma; and magnetic field generator elements for generating a magnetic field having field lines oriented along the axis X-X′, the magnetic field being uniform in orientation and in intensity over an area of the sample that is not less than the inside area of the hollow cylindrical electrode as projected along the direction X-X′.
摘要翻译：辉光放电光谱仪放电灯包括：具有连接到泵元件的真空外壳的灯体和用于将惰性气体注入外壳的注射器元件; 纵轴X-X'的中空圆柱形第一电极; 第二电极，用于接收用于分析的样品并保持面向所述圆柱形电极的一端的样品; 电场发生器，其包括用于向电极的端子施加连续，脉冲，射频或混合的电场的施加器，并且适用于在存在气体的情况下产生辉光放电等离子体; 用于将放电灯耦合到适于测量等离子体的至少一种组分的光谱仪的耦合器元件; 以及用于产生具有沿着X-X'轴定向的场线的磁场的磁场发生器元件，所述磁场在样品的区域上的取向均匀且强度不小于中空圆柱体的内部区域电极沿X-X'方向投影。

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