TH46487A - Methods and equipment for the detection of substances using nuclear resonance. - Google Patents

Abstract

DC60 (26/12/43) Method and device for the detection of a given substance in the sample. By using nuclear Quadrupole resonance and nuclear magnetic resonance The neutrals of the sample have been made Radiated with a modified unstable, forward RF pulse sequence composed of a number of pulses, the pulse sequence consists of a pair of pulses offset from each other by a specified phase shift. To produce a number of nuclear resonant resonance signals from a given substance, if present, a series of pulse sequences has been generated with a pulse pair with a phase of the pair of pulses attached. Each offset is a 90 degree angle of the type [Tow / 2 - (Theta - Delta Theta - Theta) 0 degrees - Theta - (Theta - Delta Theta - Theta) 90 degrees - Tu / 2]. n and the transmitted frequency offset relative to the resonance frequency of the radiated nucleus of the given substance, the resonance signal was analyzed using Fourier transform and the technique. Filtering to record only the resonance signal close to the resonance frequency of the radiated nucleus. Then the recorded resonance signal was compared. With the corresponding set reference value, the substance determined to determine whether it is present or not present in the sample.This type of detection method has not been influenced by temperature variations or other factors. Causing A dark anomaly A series of pulse sequences produces an additional resonance signal, which increases the The intensity of the observed signal and therefore It will increase the signal to noise ratio and will also have the effect of magnetic resonance vibration. Methods and equipment for detecting a given substance in the sample. By using nuclear Quadrupole resonance and nuclear magnetic resonance The neutrals of the sample have been made Radiated by a modified unstable, forward RF pulse sequence composed of a number of pulses, the pulse sequence consists of pulse pairs offset from each other by a specified phase shift. To produce a number of nuclear resonant resonance signals from a given substance, if present, a series of pulse sequences has been generated with a pulse pair with a phase of the pair of pulses attached. Each offset is a 90 ° angle of the type [Tow / 2 - (Theta - Delta Theta - Theta) 0 ํ - Theta - (Theta - Delta Theta - Theta) 90 ํ - Tao / 2]. n and the transmitted frequency offset relative to the resonance frequency of the radiated nucleus of the given substance, the resonance signal was analyzed using Fourier transform and the technique. Filtering to record only the resonance signal close to the resonance frequency of the radiated nucleus. Only the specified substance was detected, and then the recorded echo was compared. With the corresponding set reference value, the substance determined to determine whether it is present or not present in the sample.This type of detection method has not been influenced by temperature variations or other factors. Causing A dark anomaly A series of pulse sequences produces an additional resonance signal, which increases the The intensity of the observed signal and therefore It will increase the signal-to-noise ratio and will also have the effect of magnetic resonance vibrations.

Claims (2)

1. A method for detecting a given substance in a sample. Which consists of Radiation of the nucleus of a sample in which a given substance is searched for detection. With a series of pulse sequences consisting of a number of pulses Where a set of pulse sequences consists of a pair of pulses that Offsets are separated by a specified phase shift to produce a nuclear resonance resonance signal. A certain amount of nance from a given substance, if present, and resonance analysis to detect the presence of a given substance. 2. How to apply for the rights of the tag: