SU153133A1 - - Google Patents

Description

Devices are known for stabilizing a polarizing magnetic field of a nuclear magnetic resonance spectrometer (. M.), Containing primary and auxiliary magnetic resonance sensors, equipped with the analyzed and standard samples. Also known stabilization system flow.

In the proposed device, to improve the accuracy of measurement, the excitation coils, the length of which is equal to the length of the gap of the magnetic system, are made in the form of solenoids and placed on the head of the auxiliary sensor along the polarizing field. To further improve the quality of stabilization, the device uses a magnetic flux stabilization system.

The drawing shows a block diagram of the system. mr. stabilization.

In the gap of the magnet 1 of the spectrometer 2 along with the main sensor 3. M. the signals containing the sample to be analyzed, an auxiliary sensor 4 is inserted with a standard sample. Located in the magnet gap / two bridge sensors 3 and 4 are excited by a high frequency from the same crystal oscillator 5. In order to eliminate the occurrence of gradients in the sample location areas due to the currents in the displacement and sweep coils 6, the displacement coil has the shape of a solenoid, located along the polarization of the field and having a length close to or equal to the size of the gap. Such a coil with all its reflections in a soft and rotten material.

No. 153133

the tip is equivalent to an infinitely long solenoid with a uniform field inside it and a field equal to zero outside. Therefore, a sweep coil that encloses the receiving coil of a single sensor creates a uniform field in its area and does not create fields at all in the region of the location of the receiving coil of the second sensor. For the convenience of moving the main sensor 3 while searching for the most homogeneous area in the gap of the magnet 1, as well as to provide ease of stirring, coils on its head are used to correct the constant gradients of the coil field and mixing and sweep are located on the head of the auxiliary sensor 4. With this The arrangement of the mixing coil, its length is completely non-critical. The signal received from the auxiliary sensor 4 is amplified, detected by the common-mode detector 7 and controls the grid of the lamp 8, the anode current of which feeds the compensating coil 9 at the magnet tips. To improve the speed of the stabilization system on the tips of the magnet / there is another pair of coils 10 connected to the grid of the AC amplifier. The output of the amplifier is connected to the grid of the control lamp 8 of the system. M. stabilization. The magnitudes of the transient constants of the amplifier 11 and its gain are calculated so as to ensure the stability of the entire system as a whole.

The subject invention

Claims (2)

1. A device for stabilizing a magnetic field polarizing nuclear magnetic resonance spectrometer, comprising a main sensor of nuclear magnetic resonance with an analyte and an auxiliary sensor with a standard substance and an excitation coil located in the air gap of the magnetic system, creating a developing and displacing field, characterized in that in order to improve the measurement accuracy, the excitation coil, the length of which is equal to the length of the gap of the magnetic system, is made in the form of solenoids and placed on the head in pomogatelnogo sensor along the polarizing field. 2. The device according to claim 1, characterized in that, in order to further improve the quality of stabilization, it uses a system for stabilizing the magnetic flux.