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    • 61. 发明授权
    • Lighting system
    • 照明系统
    • US07447249B2
    • 2008-11-04
    • US11464325
    • 2006-08-14
    • Takahiro MatsumotoMasayuki Kanechika
    • Takahiro MatsumotoMasayuki Kanechika
    • H01S3/093
    • H01S3/0975H01J65/044H01S3/2232
    • A lighting system includes a microwave resonator (2) for generating a standing microwave in the internal space, and a gas cell (6) enclosing a medium is disposed in the internal space of the microwave resonator 2. The lighting system excites the medium in the gas cell (6) by the standing microwave to generate light. The gas cell (6) is replaceably mounted on the microwave resonator (2). The generated light is output to the outside of the microwave resonator (2) through a light lead-out hole (26). Thereby, it is possible to provide a lighting system (including a gas laser) capable of emitting light efficiently with a compact and inexpensive device configuration and of achieving a long life. Moreover, it can also be used as a lighting system in the THz-wave region by enclosing the medium for generating light in the far-infrared region in the gas cell (6).
    • 照明系统包括用于在内部空间中产生驻波的微波谐振器(2),并且包围介质的气室(6)设置在微波谐振器2的内部空间中。 照明系统通过立式微波激发气室(6)中的介质以产生光。 气体电池(6)可更换地安装在微波谐振器(2)上。 所产生的光通过光导出孔(26)输出到微波谐振器(2)的外部。 由此,能够提供能够以紧凑且廉价的装置结构有效发光的长寿命的照明系统(包括气体激光器)。 而且,也可以在气体电池(6)的远红外区域包围用于产生光的介质,作为太赫兹波区域的照明系统。
    • 64. 发明申请
    • LIGHTING SYSTEM
    • 照明系统
    • US20070041417A1
    • 2007-02-22
    • US11464325
    • 2006-08-14
    • Takahiro MatsumotoMasayuki Kanechika
    • Takahiro MatsumotoMasayuki Kanechika
    • H01S3/22
    • H01S3/0975H01J65/044H01S3/2232
    • A lighting system includes a microwave resonator (2) for generating a standing microwave in the internal space, and a gas cell (6) enclosing a medium is disposed in the internal space of the microwave resonator 2. The lighting system excites the medium in the gas cell (6) by the standing microwave to generate light. The gas cell (6) is replaceably mounted on the microwave resonator (2). The generated light is output to the outside of the microwave resonator (2) through a light lead-out hole (26). Thereby, it is possible to provide a lighting system (including a gas laser) capable of emitting light efficiently with a compact and inexpensive device configuration and of achieving a long life. Moreover, it can also be used as a lighting system in the THz-wave region by enclosing the medium for generating light in the far-infrared region in the gas cell (6).
    • 照明系统包括用于在内部空间中产生驻波的微波谐振器(2),并且包围介质的气室(6)设置在微波谐振器2的内部空间中。 照明系统通过立式微波激发气室(6)中的介质以产生光。 气体电池(6)可更换地安装在微波谐振器(2)上。 所产生的光通过光导出孔(26)输出到微波谐振器(2)的外部。 由此,能够提供能够以紧凑且廉价的装置结构有效发光的长寿命的照明系统(包括气体激光器)。 而且,也可以在气体电池(6)的远红外区域包围用于产生光的介质,作为太赫兹波区域的照明系统。
    • 65. 发明授权
    • Position detecting device and position detecting method
    • 位置检测装置和位置检测方法
    • US07103497B2
    • 2006-09-05
    • US11190168
    • 2005-07-27
    • Takahiro MatsumotoHideki Ina
    • Takahiro MatsumotoHideki Ina
    • G01B11/00
    • G03F9/7088G03F7/70633G03F9/7003G03F9/7046G03F9/7065G03F9/7069G03F9/7092
    • A position detection method for detecting the position of marks includes the following steps: a step for detecting first information relating to the position of the mark by detecting light from the mark under first measurement conditions; a step for detecting second information relating to the position of the mark by detecting light from the mark under second measurement conditions which differ from the first measurement conditions; and a step for detecting the position of the mark based on the first and second information, thereby providing a high-precision position detecting method and device serving as an alignment or overlaying detection device in an exposure apparatuses used in manufacturing semiconductor devices, wherein position detection precision is not lost even in the event that the alignment marks are not symmetrical or there are irregularities in the non-symmetry of multiple alignment marks within the same wafer.
    • 用于检测标记位置的位置检测方法包括以下步骤:用于通过在第一测量条件下检测来自标记的光来检测与标记的位置有关的第一信息的步骤; 通过在与第一测量条件不同的第二测量条件下检测来自标记的光来检测与标记的位置有关的第二信息的步骤; 以及基于第一和第二信息来检测标记的位置的步骤,从而在用于制造半导体器件的曝光装置中提供用于对准或重叠检测装置的高精度位置检测方法和装置,其中位置检测 即使在对准标记不对称或在同一晶片内的多个对准标记的非对称性中存在不规则性的情况下,精度也不会降低。
    • 67. 发明授权
    • Position detecting device and position detecting method
    • 位置检测装置和位置检测方法
    • US06999893B2
    • 2006-02-14
    • US10662408
    • 2003-09-16
    • Takahiro MatsumotoHideki Ina
    • Takahiro MatsumotoHideki Ina
    • G01C3/00
    • G03F9/7088G03F7/70633G03F9/7003G03F9/7046G03F9/7065G03F9/7069G03F9/7092
    • A position detection method for detecting the position of marks comprises the following steps: a step for detecting first information relating to the position of the mark by detecting light from the mark under first measurement conditions; a step for detecting second information relating to the position of the mark by detecting light from the mark under second measurement conditions which differ from the first measurement conditions; and a step for detecting the position of the mark based on the first and second information, thereby providing a high-precision position detecting method and device serving as an alignment or overlaying detection device in an exposure apparatuses used in manufacturing semiconductor devices, wherein position detection precision is not lost even in the event that the alignment marks are not symmetrical or there are irregularities in the non-symmetry of multiple alignment marks within the same wafer.
    • 用于检测标记位置的位置检测方法包括以下步骤:通过在第一测量条件下检测来自标记的光来检测与标记的位置有关的第一信息的步骤; 通过在与第一测量条件不同的第二测量条件下检测来自标记的光来检测与标记的位置有关的第二信息的步骤; 以及用于基于第一和第二信息检测标记的位置的步骤,从而在用于制造半导体器件的曝光装置中提供用作对准或重叠检测装置的高精度位置检测方法和装置,其中位置检测 即使在对准标记不对称或在同一晶片内的多个对准标记的非对称性中存在不规则性的情况下,精度也不会降低。