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公开(公告)号:US08935960B2
公开(公告)日:2015-01-20
申请号:US13010333
申请日:2011-01-20
CPC分类号: G01N21/1702 , G01N33/22 , G01N33/227
摘要: A kit for detecting the presence of an explosive includes a pulsed focused energy source located at a target distance away from a substrate, the energy having a magnitude sufficient to release the internal energy of an explosive if present on the substrate and thereby generate an acoustic wave. The kit also includes a detector adapted to detect the acoustic wave at a detection distance away from the substrate.
摘要翻译: 用于检测爆炸物存在的试剂盒包括位于远离基底的目标距离的脉冲聚焦能量源,该能量具有足以释放爆炸物的内部能量的量值,如果存在于基底上,从而产生声波 。 该试剂盒还包括一个检测器,适用于检测距离基底的检测距离处的声波。
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公开(公告)号:US20120186352A1
公开(公告)日:2012-07-26
申请号:US13010333
申请日:2011-01-20
IPC分类号: G01H9/00
CPC分类号: G01N21/1702 , G01N33/22 , G01N33/227
摘要: A kit for detecting the presence of an explosive includes a pulsed focused energy source located at a target distance away from a substrate, the energy having a magnitude sufficient to release the internal energy of an explosive if present on the substrate and thereby generate an acoustic wave. The kit also includes a detector adapted to detect the acoustic wave at a detection distance away from the substrate.
摘要翻译: 用于检测爆炸物存在的试剂盒包括位于远离基底的目标距离的脉冲聚焦能量源,该能量具有足以释放爆炸物的内部能量的量值,如果存在于基底上,从而产生声波 。 该试剂盒还包括一个检测器,适用于检测距离基底的检测距离处的声波。
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公开(公告)号:US20110233428A1
公开(公告)日:2011-09-29
申请号:US13152622
申请日:2011-06-03
CPC分类号: G01N21/75 , G01J3/10 , G01N21/6402 , Y10T436/147777 , Y10T436/173076 , Y10T436/177692
摘要: Methods and devices for detecting the presence of a NO forming material (e.g., a material that can form, or is, a nitrogen monoxide molecule) are disclosed based on detection of fluorescence exhibited by NO molecules in a first vibrationally excited state of a ground electronic state. Such excited NO molecules can be formed, for example, when small amounts of explosives are photodissociated. By inducing fluorescence of the material, a distinct signature of the explosive can be detected. Such techniques can be performed quickly and with a significant standoff distance, which can add to the invention's utility. In another aspection of the invention, methods and apparatus for generating electromagnetic radiation are disclosed. Such methods and apparatus can be used in conjunction with any detection method disclosed herein.
摘要翻译: 基于在地面电子学的第一振动激发状态中NO分子的荧光的检测来公开用于检测NO形成材料(例如,可以形成或是一氧化氮分子的材料)的存在的方法和装置 州。 例如当少量的爆炸物被光分解时,可以形成这样的激发的NO分子。 通过诱导材料的荧光,可以检测到爆炸物的不同标志。 这样的技术可以快速执行并具有显着的间隔距离,这可以增加本发明的效用。 在本发明的另一个方面,公开了用于产生电磁辐射的方法和装置。 这些方法和装置可以结合本文公开的任何检测方法使用。
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公开(公告)号:US08198095B2
公开(公告)日:2012-06-12
申请号:US13152622
申请日:2011-06-03
CPC分类号: G01N21/75 , G01J3/10 , G01N21/6402 , Y10T436/147777 , Y10T436/173076 , Y10T436/177692
摘要: Methods and devices for detecting the presence of a NO forming material (e.g., a material that can form, or is, a nitrogen monoxide molecule) are disclosed based on detection of fluorescence exhibited by NO molecules in a first vibrationally excited state of a ground electronic state. Such excited NO molecules can be formed, for example, when small amounts of explosives are photodissociated. By inducing fluorescence of the material, a distinct signature of the explosive can be detected. Such techniques can be performed quickly and with a significant standoff distance, which can add to the invention's utility. In another aspection of the invention, methods and apparatus for generating electromagnetic radiation are disclosed. Such methods and apparatus can be used in conjunction with any detection method disclosed herein.
摘要翻译: 基于在地面电子学的第一振动激发状态中NO分子的荧光的检测来公开用于检测NO形成材料(例如,可以形成或是一氧化氮分子的材料)的存在的方法和装置 州。 例如当少量的爆炸物被光分解时,可以形成这样的激发的NO分子。 通过诱导材料的荧光,可以检测到爆炸物的不同标志。 这样的技术可以快速执行并具有显着的间隔距离,这可以增加本发明的效用。 在本发明的另一个方面,公开了用于产生电磁辐射的方法和装置。 这些方法和装置可以结合本文公开的任何检测方法使用。
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公开(公告)号:US07955855B2
公开(公告)日:2011-06-07
申请号:US12500880
申请日:2009-07-10
CPC分类号: G01N21/75 , G01J3/10 , G01N21/6402 , Y10T436/147777 , Y10T436/173076 , Y10T436/177692
摘要: Methods and devices for detecting the presence of a NO forming material (e.g., a material that can form, or is, a nitrogen monoxide molecule) are disclosed based on detection of fluorescence exhibited by NO molecules in a first vibrationally excited state of a ground electronic state. Such excited NO molecules can be formed, for example, when small amounts of explosives are photodissociated. By inducing fluorescence of the material, a distinct signature of the explosive can be detected. Such techniques can be performed quickly and with a significant standoff distance, which can add to the invention's utility. In another aspection of the invention, methods and apparatus for generating electromagnetic radiation are disclosed. Such methods and apparatus can be used in conjunction with any detection method disclosed herein.
摘要翻译: 基于在地面电子学的第一振动激发状态中NO分子的荧光的检测来公开用于检测NO形成材料(例如,可以形成或是一氧化氮分子的材料)的存在的方法和装置 州。 例如当少量的爆炸物被光分解时,可以形成这样的激发的NO分子。 通过诱导材料的荧光,可以检测到爆炸物的不同标志。 这样的技术可以快速执行并具有显着的间隔距离,这可以增加本发明的实用性。 在本发明的另一个方面,公开了用于产生电磁辐射的方法和装置。 这些方法和装置可以结合本文公开的任何检测方法使用。
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公开(公告)号:US20100047916A1
公开(公告)日:2010-02-25
申请号:US12500880
申请日:2009-07-10
CPC分类号: G01N21/75 , G01J3/10 , G01N21/6402 , Y10T436/147777 , Y10T436/173076 , Y10T436/177692
摘要: Methods and devices for detecting the presence of a NO forming material (e.g., a material that can form, or is, a nitrogen monoxide molecule) are disclosed based on detection of fluorescence exhibited by NO molecules in a first vibrationally excited state of a ground electronic state. Such excited NO molecules can be formed, for example, when small amounts of explosives are photodissociated. By inducing fluorescence of the material, a distinct signature of the explosive can be detected. Such techniques can be performed quickly and with a significant standoff distance, which can add to the invention's utility. In another aspection of the invention, methods and apparatus for generating electromagnetic radiation are disclosed. Such methods and apparatus can be used in conjunction with any detection method disclosed herein.
摘要翻译: 基于在地面电子学的第一振动激发状态中NO分子的荧光的检测来公开用于检测NO形成材料(例如,可以形成或是一氧化氮分子的材料)的存在的方法和装置 州。 例如当少量的爆炸物被光分解时,可以形成这样的激发的NO分子。 通过诱导材料的荧光,可以检测到爆炸物的不同标志。 这样的技术可以快速执行并具有显着的间隔距离,这可以增加本发明的效用。 在本发明的另一个方面,公开了用于产生电磁辐射的方法和装置。 这些方法和装置可以结合本文公开的任何检测方法使用。
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