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公开(公告)号:US20150226666A1
公开(公告)日:2015-08-13
申请号:US14424850
申请日:2013-08-06
发明人: Charles Charbel Harb
CPC分类号: G01N21/39 , G01J3/021 , G01J3/10 , G01J3/42 , G01J3/427 , G01J3/433 , G01J2003/102 , G01N21/031 , G01N21/3504 , G01N2201/06113 , H01S3/08063 , H01S3/105
摘要: Methods and optical detection systems (200, 300, 800, 900) for generating and processing a real-time time-domain cavity ringdown spectroscopy (CRDS) signal (831, 931) from an absorbing species in an optical detection system (200, 300, 800, 900) having an optical ringdown cavity (200, 300) are disclosed. The optical ringdown cavity (200, 300) is adapted for accepting a sample of an absorbing species. One or more modulated light signals (241,243,245,341) are generated using one or more light sources (240, 242, 244, 340). The light source(s) (240, 242, 244, 340) is pulsed at a specified pulse rate(s). The modulated light signal(s) (241,243,245, 341) is resonated using the optical ringdown cavity (200, 300) comprising a plurality of mirrors (220, 230), or sets of mirrors (320, 330), to produce the CRDS signal (831, 931). The reflectivity of the mirrors (220, 230), or sets of mirrors (320, 330), is dependent upon the pulse rate of the modulated light signals (241,243,245,341). Different beamlines (212, 214, 216, 312, 314, 316) are established by the modulated light signal(s) (241,243,245, 341) and the mirrors (220, 230, 320, 330) interacting with the absorbing species sample.
摘要翻译: 用于从光学检测系统(200,300)中的吸收物质生成和处理实时时域衰减光谱(CRDS)信号(831,931)的方法和光学检测系统(200,300,800,900) ,800,900),其具有光学衰减腔(200,300)。 光学衰减腔(200,300)适于接收吸收物质的样品。 使用一个或多个光源(240,242,244,340)产生一个或多个调制光信号(241,243,245,341)。 光源(240,242,244,340)以指定的脉冲速率脉冲。 调制光信号(241,243,245,341)使用包括多个反射镜(220,230)或一组反射镜(320,330)的光学环形空腔(200,300)进行谐振,以产生CRDS信号 (831,931)。 反射镜(220,230)或反射镜组(320,330)的反射率取决于调制光信号的脉冲速率(241,243,245,341)。 通过调制光信号(241,243,245,341)和与吸收物质样品相互作用的反射镜(220,230,320,330)建立不同的光束线(212,214,216,312,314,316)。
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公开(公告)号:US09329123B2
公开(公告)日:2016-05-03
申请号:US14424850
申请日:2013-08-06
发明人: Charles Charbel Harb
IPC分类号: G01N21/39 , G01J3/42 , H01S3/08 , G01N21/3504 , G01N21/03 , G01J3/02 , G01J3/10 , G01J3/427 , G01J3/433 , H01S3/105
CPC分类号: G01N21/39 , G01J3/021 , G01J3/10 , G01J3/42 , G01J3/427 , G01J3/433 , G01J2003/102 , G01N21/031 , G01N21/3504 , G01N2201/06113 , H01S3/08063 , H01S3/105
摘要: Methods and optical detection systems (200, 300, 800, 900) for generating and processing a real-time time-domain cavity ringdown spectroscopy (CRDS) signal (831, 931) from an absorbing species in an optical detection system (200, 300, 800, 900) having an optical ringdown cavity (200, 300) are disclosed. The optical ringdown cavity (200, 300) is adapted for accepting a sample of an absorbing species. One or more modulated light signals (241,243,245,341) are generated using one or more light sources (240, 242, 244, 340). The light source(s) (240, 242, 244, 340) is pulsed at a specified pulse rate(s). The modulated light signal(s) (241,243,245, 341) is resonated using the optical ringdown cavity (200, 300) comprising a plurality of mirrors (220, 230), or sets of mirrors (320, 330), to produce the CRDS signal (831, 931). The reflectivity of the mirrors (220, 230), or sets of mirrors (320, 330), is dependent upon the pulse rate of the modulated light signals (241,243,245,341). Different beamlines (212, 214, 216, 312, 314, 316) are established by the modulated light signal(s) (241,243,245, 341) and the mirrors (220, 230, 320, 330) interacting with the absorbing species sample.
摘要翻译: 用于从光学检测系统(200,300)中的吸收物质生成和处理实时时域衰减光谱(CRDS)信号(831,931)的方法和光学检测系统(200,300,800,900) ,800,900),其具有光学衰减腔(200,300)。 光学衰减腔(200,300)适于接收吸收物质的样品。 使用一个或多个光源(240,242,244,340)产生一个或多个调制光信号(241,243,245,341)。 光源(240,242,244,340)以指定的脉冲速率脉冲。 调制光信号(241,243,245,341)使用包括多个反射镜(220,230)或一组反射镜(320,330)的光学环形空腔(200,300)进行谐振,以产生CRDS信号 (831,931)。 反射镜(220,230)或反射镜组(320,330)的反射率取决于调制光信号的脉冲速率(241,243,245,341)。 通过调制光信号(241,243,245,341)和与吸收物质样品相互作用的反射镜(220,230,320,330)建立不同的光束线(212,214,216,312,314,316)。
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公开(公告)号:US10048196B2
公开(公告)日:2018-08-14
申请号:US15336045
申请日:2016-10-27
摘要: Methods and apparatuses of generating and processing a real-time time-domain cavity ringdown spectroscopy (CRDS) signal from absorbing species in an optical detection system having an optical ringdown cavity using off-axis paths are provided. At least one modulated light signal is generated using one or more light sources, each modulated at specified modulation frequency. Each modulated signal has harmonic frequency components and is input off-axis relative to the cavity's optical axis. The cavity contains mirrors arranged in a predetermined configuration. The optical axis is defined by a path passing through centers of mirrors. The modulated light signal is resonated off axis without astigmatic optical elements to produce CRDS signal and passes at least twice through cavity and across the mirrors without interfering with itself. An overall path length through cavity is greater than path length of optical axis. A photodetector detects the CRDS signal, which is demodulated dependent upon selected harmonics.
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