SU1408323A1 - Sensor of nuclear quadrupole resonance - Google Patents

Abstract

The invention relates to the field of radio spectroscopy. The goal is to reduce the parasitic electromagnetic interference when examining samples with different magnetoelectric characteristics. The sensor signal for nuclear quadrupole resonance contains a receiving 1 and transmitting 2 inductors. The transmitting coil is constructively divided into two halves located symmetrically in the receiving inductor parallel to its axis. Adjustable capacitances 3 and 4 are inserted into the sensor, each of which is electrically connected to one of the terminals of the transmitting inductance coil and its removal from the center. Such inclusion of adjustable capacitances makes it possible to vary the amplitude and phase of the EMF induced on the receive inductor from each half of the transmitting coil under the action of radio frequency voltage, which allows to reduce the parasitic electromagnetic pickup when placed in one of the half of the transmitting. sample coils with final magnetic and dielectric constant values of 1 il. I c b c c

Description

The invention relates to radio spectroscopy and can be used in nuclear quadrupole resonance spectrometers, as well as in measuring devices based on nuclear quadrupole resonance,

The aim of the invention is to reduce parasitic electromagnetic interference when examining samples with different magnetoelectric characteristics.

The drawing shows the proposed sensor, a wiry view of

The signal sensor contains two inductors - receiving 1 and transmitting 2, to the terminals of which and its outlet from the middle are adjustable capacitances 3 and A electrically connected. Both coils are rigidly fixed

The sensor works as follows

A sample under test is placed in the halves of the coil 2 inductance and an RF voltage is applied to the terminals of the transmitting coil stubs 2 inductance. The parasitic electromagnetic pickup arising from the action of the magnetoelectric characteristics that cause the electromagnetic fields of the transmitting inductance to be redistributed, placed in the sample sensor, is eliminated by adjusting the capacitances 3 and 4 and overloading the input circuits of the receiving circuit.

When fulfilling the conditions of a nuclear, a corpolar resonance, a precession of spins arises in the sample, due to which an electromagnetic signal is induced on the inductance receiving coil 1 of the inductance 1, and then the Hi input of the receiving system arrives.

The proposed inclusion of regulating M1IG containers and changing their values the ability to change the amplitude

. and the phase of the EMF induced on the receiving coil of the inductance from each of the halves of the transmitting coil, and to compensate for the effect of different magnetoelectric characteristics of the studied substances. When using the resonant method of excitation of samples, to maintain the same resonant frequency of the transmitting system, capacitances 3 and 4 are adjusted by increasing the value of one of them, reducing the value of the other one as much.

The invention will improve the stability of the sensor, provided by the rigid fixing of its coils, to produce a quick setup of the sensor when changing samples except for the overload of input circuits caused by parasitic electromagnetic interference. The use of varicaps instead of tanks 3 and 4 allows you to remotely and automatically adjust the sensor, which improves its performance.

Claims (1)

Invention Formula The sensor sensor for nuclear quadrupole resonance, containing the receiving and transmitting inductance coils, while the transmitting coil inductance is structurally divided into two halves located - symmetrically in the receiving coil of the inductance parallel to its axis, so as to reduce parasitic electromagnetic pickups in the study of samples with different magnetoelectric characteristics, adjustable capacitances are added to it, each of which is connected to one of the pins Reda inductors and diversion from its middle.