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    • 2. 发明专利
    • Photoconductivity element, infrared radiation element using the same, and sensing element therefor
    • 光电元件,使用其的红外辐射元件及其感应元件
    • JP2005026347A
    • 2005-01-27
    • JP2003188257
    • 2003-06-30
    • Japan Science & Technology AgencySeiji Nishizawa独立行政法人科学技術振興機構誠治 西澤
    • NISHIZAWA SEIJIIWAMOTO TOSHIYUKI
    • G01J3/10G01J11/00H01L31/0248
    • PROBLEM TO BE SOLVED: To provide a phtoconductivity element which can radiate stable far-infrared electromagnetic wave pulse of narrow pulse time width and detect far-infrared electromagnetic wave pulse with high sensitivity.
      SOLUTION: In a phtoconductivity element, mutual antenna parts are so arranged that a pair of electrode films and a phtoconductivity film which are arranged to form an antenna by separation with a minute gap portion are formed on a substrate. The surface of the substrate consists of an effective light carrier formation region and an un-effective light carrier formation region which consists of an electrode film projection region and an electrode film non-projection region. The effective light carrier formation region is made a projection region to the substrate of the minute gap portion in the incident direction of excitation light. The electrode film projection region is made a projection region to a substrate surface of the electrode film in the incident direction of the excitation light. The electrode film non-projection region is made an un-effective light carrier formation region. The photoconductivity element is characterized by constituting that the light carrier is formed only in a photoconductivity film which is formed in at least one part in the effective light carrier formation region.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供可以辐射窄脉冲宽度的稳定的远红外电磁波脉冲并且以高灵敏度检测远红外电磁波脉冲的电导元件。 解决方案:在导电性元件中,共同的天线部件被布置成使得通过与微小间隙部分分离而布置成形成天线的一对电极膜和导电膜形成在基板上。 衬底的表面由有效的光载体形成区域和由电极膜投影区域和电极膜非投影区域组成的无效的光载体形成区域组成。 有效的光载体形成区域在激发光的入射方向上形成到微小间隙部分的基板的突出区域。 电极膜投影区域在激发光的入射方向上形成到电极膜的基板表面的投影区域。 电极膜非投影区域成为无效的光载体形成区域。 光电元件的特征在于,构成仅在形成于有效光载体形成区域的至少一部分的光电导膜中形成光载体。 版权所有(C)2005,JPO&NCIPI
    • 4. 发明专利
    • Infra-red ray emitter, time series conversion pulse spectrometric measuring instrument, and infra-red ray emission method
    • 红外辐射发射器,时间序列转换脉冲光谱测量仪器和红外辐射方法
    • JP2006098294A
    • 2006-04-13
    • JP2004286579
    • 2004-09-30
    • Japan Science & Technology AgencySeiji Nishizawa独立行政法人科学技術振興機構誠治 西澤
    • NISHIZAWA SEIJIIWAMOTO TOSHIYUKI
    • G01N21/01G01J3/10G01J3/447G01N21/19G01N21/35G01N21/3586G01N22/00H01S1/02
    • PROBLEM TO BE SOLVED: To provide an infrared ray emitter capable of polarizing an emission ray by simple constitution without accompanying a loss of the emission ray. SOLUTION: This infrared ray emitter is provided with a photoconductive membrane 22 for generating a photocarrier with irradiation of pulsated excitation light, a pair of first antenna electrode film 21a formed on the photoconductive membrane 22 via a clearance 32 to emit an infrared ray, a pair of second antenna electrode film 21b having an angle with respect to the first antenna electrode film 21a, and formed on the photoconductive membrane 22 via the clearance 32 to emit an infrared ray, and a control part for impressing independently voltages respectively to the the first antenna electrode film 21a and the second antenna electrode film 21b. The voltage impressed to the the first antenna electrode film 21a and the voltage impressed to the second antenna electrode film 21b may be selectively impressed respectively at different times, or may be impressed at different phases at the same time. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供能够通过简单的构成使发射射线偏振而不伴随发射射线损失的红外线发射器。 解决方案:该红外线发射器设置有用于通过脉冲激发光的照射产生光载流子的光电导膜22,一对通过间隙32形成在光电导膜22上的第一天线电极膜21a,以发射红外线 ,相对于第一天线电极膜21a具有角度的一对第二天线电极膜21b,并且经由间隙32形成在光电导膜22上以发射红外线;以及控制部分,用于独立地施加电压到 第一天线电极膜21a和第二天线电极膜21b。 施加到第一天线电极膜21a的电压和施加到第二天线电极膜21b的电压可以分别在不同的时间选择性地施加,或者可以同时以不同的相位施加。 版权所有(C)2006,JPO&NCIPI
    • 6. 发明专利
    • Optical path difference compensation mechanism for obtaining time sequential signal of time sequence conversion pulse spectrum measuring device
    • 用于获取时间序列转换脉冲光谱测量装置的时间顺序信号的光路差分补偿机制
    • JP2005069840A
    • 2005-03-17
    • JP2003299373
    • 2003-08-22
    • Japan Science & Technology AgencySeiji Nishizawa独立行政法人科学技術振興機構誠治 西澤
    • NISHIZAWA SEIJIIWAMOTO TOSHIYUKI
    • G01J3/42G01J3/08G01N21/35G01N21/3586G01N21/64
    • G01J3/08G01N21/3586G01N2201/0696G01N2201/0698
    • PROBLEM TO BE SOLVED: To provide a time sequence conversion pulse spectrum measuring device capable of measuring time sequence conversion pulse spectrum of various sample and its state, etc. easily and in a short time. SOLUTION: The time sequence conversion pulse spectrum measuring device comprises a pulse laser source, a split means for splitting pulse laser light from the pulse laser source, into pulse laser light for exciting and pulse laser light for detecting, a pulse light irradiation means, a detection means, a sample holder holding a sample and a sample part incidence/emission optical system. Furthermore, the time sequence conversion pulse spectrum measuring device comprises a light path length changing means for setting at least one light measuring zone which is arranged in one of incidence side light path from the splitting means to the pulse light irradiation means and/or detection side light path from the splitting means to the detection means, and an optical delay means for measuring at least one time sequence signal which is arranged in one of incidence side light path from the splitting means to the pulse light irradiation means and/or detection side light path from the splitting means to the detection means. COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种能够容易地并且在短时间内测量各种样品的时序转换脉冲谱及其状态等的时间序列转换脉冲光谱测量装置。 解决方案:时序转换脉冲光谱测量装置包括脉冲激光源,用于将脉冲激光源的脉冲激光分离成用于激发的脉冲激光和用于检测的脉冲激光的分离装置,脉冲光照射 装置,检测装置,保持样品的样品架和样品部分入射/发射光学系统。 此外,时序转换脉冲光谱测量装置包括光路长度改变装置,用于设置至少一个光测量区,该光测量区被布置在从分离装置到脉冲光照射装置和/或检测侧的入射侧光路之一中 从分离装置到检测装置的光路,以及光学延迟装置,用于测量布置在从分离装置到脉冲光照射装置的入射侧光路中的至少一个时序信号和/或检测侧光 从分离装置到检测装置的路径。 版权所有(C)2005,JPO&NCIPI
    • 9. 发明专利
    • Optical arrangement for reflectance spectrum observation
    • 反射光谱观察的光学布置
    • JP2005121513A
    • 2005-05-12
    • JP2003357609
    • 2003-10-17
    • Japan Science & Technology AgencySeiji Nishizawa独立行政法人科学技術振興機構誠治 西澤
    • NISHIZAWA SEIJIIWAMOTO TOSHIYUKI
    • G01J3/10G01J3/28G01N21/27G01N21/35G01N21/3563G01N21/3586
    • PROBLEM TO BE SOLVED: To provide a time-series conversion pulse spectroscopic measuring device capable of highly accurate spectroscopic measurement by avoiding 'time deviation between beams' in a sample part incident/outgoing optical system. SOLUTION: The time-series conversion pulse spectroscopic measuring device is equipped with a light radiation means, a detection means for detecting a time-series signal of an electric field intensity of reflected light from a sample irradiated with light from the light radiation means, a sample holding part for holding the sample, the sample part incident/outgoing optical system for guiding the light from the light radiation means side to the sample, and guiding the reflected light from the sample generated by irradiation to the detection means side. The sample part incident/outgoing optical system is characterized by having 180° rotationally symmetric optical arrangement with respect to an optical axis vertical to the surface of the sample, and by having optical consistency relative to an incident light flux from the light radiation means side into the sample part incident/outgoing optical system and an outgoing light flux from the sample part incident/outgoing optical system to the detection means side. COPYRIGHT: (C)2005,JPO&NCIPI
    • 解决的问题:提供一种能够通过避免样品部分入射/出射光学系统中的“光束之间的时间偏差”而能够进行高精度的光谱测量的时间序列转换脉冲光谱测量装置。 解决方案:时间序列转换脉冲光谱测量装置配备有光辐射装置,检测装置,用于检测来自照射来自光辐射的光的样品的反射光的电场强度的时间序列信号 装置,用于保持样本的样本保持部分,用于将来自光辐射装置侧的光引导到样本的样本部分入射/出射光学系统,并将来自通过照射产生的样本的反射光引导到检测装置侧。 样品部分入射/出射光学系统的特征在于相对于垂直于样品表面的光轴具有180°旋转对称的光学布置,并且具有相对于从光辐射装置侧入射的光通量的光学一致性 样品部分入射/出射光学系统和从样品部分入射/出射光学系统到检测装置侧的出射光束。 版权所有(C)2005,JPO&NCIPI