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公开(公告)号:US20150077111A1
公开(公告)日:2015-03-19
申请号:US14543255
申请日:2014-11-17
申请人: LynxRail Corporation
发明人: Taras Rudakov , Krzysztof Kilian
CPC分类号: G01N24/08 , G01N24/081 , G01R33/3808 , G01R33/441 , G01V3/32
摘要: A method for mineral analysis of a sample based on detection of NQR and/or NMR signals from a particular substance within a sample includes: setting a frequency of RF pulses to be approximately equal to one of the NQR or NMR frequencies of the substance; setting a set of parameters of the RF pulses to be optimal for the substance; setting a set of receiving parameters to be optimal for the substance; tuning the probe to maximum sensitivity for the signals detected at predetermined frequency and/or to maximum power transfer efficiency for RF pulses transmitted with the probe; transmitting the RF pulses with the probe at said optimal level during a transmitting period to irradiate the sample and excite an NQR or NMR signal in the substance, if present; detecting and processing NQR or NMR signals emitted by the substance; and calculating the concentration of the substance in the sample.
摘要翻译: 基于检测来自样品中特定物质的NQR和/或NMR信号的样品的矿物分析方法包括:将RF脉冲的频率设置为近似等于物质的NQR或NMR频率之一; 将RF脉冲的一组参数设置为物质的最佳值; 设置一组接收参数为物质最佳; 将探头调谐到以预定频率检测的信号的最大灵敏度和/或对于与探头一起传输的RF脉冲的最大功率传输效率; 在发射周期期间用探头以所述最佳电平发射RF脉冲以照射样品并激发物质中的NQR或NMR信号(如果存在); 检测和处理物质发出的NQR或NMR信号; 并计算样品中物质的浓度。
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公开(公告)号:US08917092B2
公开(公告)日:2014-12-23
申请号:US13930441
申请日:2013-06-28
申请人: LynxRail Corporation
发明人: Taras Rudakov , Krzysztof Kilian
CPC分类号: G01N24/08 , G01N24/081 , G01R33/3808 , G01R33/441 , G01V3/32
摘要: A method for mineral analysis of a sample based on detection of NQR and/or Local Field Magnetic Resonance (LFMR) signals from a particular substance within a sample includes: setting a frequency of RF pulses to be approximately equal to one of the NQR or LFMR frequencies of the substance; setting a set of parameters of the RF pulses to be optimal for the substance; setting a set of receiving parameters to be optimal for the substance; tuning the probe to maximum sensitivity for the signals detected at predetermined frequency and/or to maximum power transfer efficiency for RF pulses transmitted with the probe; transmitting the RF pulses with the probe at said optimal level during a transmitting period to irradiate the sample and excite an NQR or LFMR signal in the substance, if present; detecting and processing NQR or LFMR signals emitted by the substance; and calculating the concentration of the substance in the sample.
摘要翻译: 基于检测来自样品中特定物质的NQR和/或局部场磁共振(LFMR)信号的样品的矿物分析方法包括:将RF脉冲的频率设置为近似等于NQR或LFMR之一 物质的频率; 将RF脉冲的一组参数设置为物质的最佳值; 设置一组接收参数为物质最佳; 将探头调谐到以预定频率检测的信号的最大灵敏度和/或对于与探头一起传输的RF脉冲的最大功率传输效率; 在发射周期期间用探头以所述最佳电平发射RF脉冲以照射样品并激发物质中的NQR或LFMR信号(如果存在); 检测和处理物质发出的NQR或LFMR信号; 并计算样品中物质的浓度。
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公开(公告)号:US20130285652A1
公开(公告)日:2013-10-31
申请号:US13930441
申请日:2013-06-28
申请人: LynxRail Corporation
发明人: Taras Rudakov , Krzysztof Kilian
IPC分类号: G01V3/32
CPC分类号: G01N24/08 , G01N24/081 , G01R33/3808 , G01R33/441 , G01V3/32
摘要: A method for mineral analysis of a sample based on detection of NQR and/or Local Field Magnetic Resonance (LFMR) signals from a particular substance within a sample includes: setting a frequency of RF pulses to be approximately equal to one of the NQR or LFMR frequencies of the substance; setting a set of parameters of the RF pulses to be optimal for the substance; setting a set of receiving parameters to be optimal for the substance; tuning the probe to maximum sensitivity for the signals detected at predetermined frequency and/or to maximum power transfer efficiency for RF pulses transmitted with the probe; transmitting the RF pulses with the probe at said optimal level during a transmitting period to irradiate the sample and excite an NQR or LFMR signal in the substance, if present; detecting and processing NQR or LFMR signals emitted by the substance; and calculating the concentration of the substance in the sample.
摘要翻译: 基于检测来自样品中特定物质的NQR和/或局部场磁共振(LFMR)信号的样品的矿物分析方法包括:将RF脉冲的频率设置为近似等于NQR或LFMR之一 物质的频率 将RF脉冲的一组参数设置为物质的最佳值; 设置一组接收参数为物质最佳; 将探头调谐到以预定频率检测的信号的最大灵敏度和/或对于与探头一起传输的RF脉冲的最大功率传输效率; 在发射周期期间用探头以所述最佳电平发射RF脉冲以照射样品并激发物质中的NQR或LFMR信号(如果存在); 检测和处理物质发出的NQR或LFMR信号; 并计算样品中物质的浓度。
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