SU864198A1 - Probe for measuring magnetic induction - Google Patents

Description

one . The invention relates to magnetic measurements, namely to measuring Y and M constant and pulsed magnet NB1X fields by the method of ferromagnetic resonance (FMR), and can be used to measure and control magnetic parameters of magnetic materials and inhomogeneous induction. magnetic resonance with probes containing an electrodynamic system (microwave resonator, oscillating circuit, etc.) with a working sample in which the signal of the magnetic resonator is detected, and the feeder line, with the aid of which communicates the electrodynamic system of the probe with the rest of the magnetic induction meter tl. The drawback of the device lies in the low accuracy of the measurements. It is also known a device for measuring magnetic induction, containing a coaxial line with a short-circuit and a working sample of ferrite 2. The disadvantage of the device is the low accuracy of the imery. In order to improve measurement accuracy, the probe for measuring magnetic induction, containing a coaxial line with a short circuit and a working ferrite sample, the inner conductor of a coaxial line with a short circuit, at one end is looped and connected to the outer conductor of a coaxial line, and the working ferrite sample is located inside loop of inner conductor. The proposed probe is shown in the drawing. The probe consists of a segment of a coaxial line, the inner conductor 1 in which at one of its end is bent in the form of a 2 to loop connected to the outer conductor; 3, and working sample 4 in the form of a ferrite sphere inside this loop. The probe works as follows. The coaxial line is matched to the input with the microwave generator and the input of the display system of the signal of the nuclear magnetic resonance (NMR) (not shown). Place the probe in the working volume of the source of the magnetic field (not shown) so that the plane of the loop 2 is perpendicular to the induction of the magnetic field. The frequency of the microwave generator is changed until its value becomes equal to the FMR resonance frequency.

From the expression B Cf, where C is the probe constant in T / GHz, f is the frequency in GHz, the induction of the magnetic field B is determined.

Without a digmeter, the proposed measuring probe can be made less than 2 mm.

Claims (2)

1. Chechurina E.N. Instruments for measuring magnetic quantities. M., Energie, 1969, ch.5, p. 96-128. 2. Authors certificate of USSR I 261563, cl. G 01 R 33 / 12,8.07.68. ////////// / / / / 7 / // // L // U //////// hp: with vs: R V // 7 ////////////////////// y //////// J / f