SU930382A1 - Method of determining collapse field intensity of magnetic bubbles lattice - Google Patents

Description

at the resonance frequency of domain boundaries, successively in the presence of a lattice with a CMD number not less than 10 on a given portion of the TMP surface and in the absence of a CMD lattice in the presence of a free band domain structure of the TMP and the difference of the spectra, the magnitude of the collapse field of the CMD lattice is judged. In static magnetic field. when a Tschsch collapses, its energy becomes zero. Consequently, during the collapse of the CMD, the energy of the TMF should change abruptly due to the processes of scattering of spin waves by the collapsing domain wall. Taking into account the integral effect of the collapse of the lattice of a low-pressure cylinder with the number of domains l / y and above, the expected value of the energy change is 10 J and it can be reliably fixed by radio spectroscopic methods. FIG. 1 shows the structure of a device implementing the proposed measurement method; in fig. 2 (curve a) - high-frequency spectrum nama) - depletion of TMP with CMD lattice, Curve B is the spectrum of a free strip domain structure of the same TMP. FIG. 2 (curve c) shows the collapse spectrum of the CMD lattice obtained by subtracting curve b from curve a. The device for measuring the field strength of the CMD lattice collapse field (Fig. 1) contains a high-frequency circuit 1 of the autodyne generator 2, which is placed in the gap of the pole electromagnets 3 which create the bias field N. In the polar poles of the electromagnet 3, normally to HQ, there are Helmholtz coils i, creating the Nro field, and scanning node 5, which allows the sample 6 to be moved relative to the flat high-frequency contour 1, which fits tightly to the surface of the sample 6 disk from the side of the investigated TMF. The determination of the strength of the CMD lattice collapse field proceeds as follows. Sample 6 occupies the initial position in the cuvette of the scanning node 5 High-frequency circuit 1 is introduced into the initial reference position of the scanning node 5. Typically, the area of the circuit is chosen to be equal to the area of the memory chip. If 24 it is necessary to certify the sample in 1 e, choose a contour with an area of 10-10 mm, equal to the area of the sample. To qualify the film for uniformity, the contour must have a smaller area (mm). In the gap of the pole tips 3, a planar (relative to the sample) uniform magnetic field Hj is developed, from Ho., 0 to H, 2H, where Id is the field of uniaxial TMF anisotropy, and then HQ gradually decreases to zero. As a result of this operation, a CMD lattice is formed in the sample, the state of which is controlled by magneto-optics. The autodyne spectrometer operating at the resonance frequency of the domain boundaries for the studied TMP is turned on, and the Helmholtz coils k are used to sweep the normal magnetic field Hp (parallel to the axis of easy magnetization of the TMP. 2, curve a) After recording the magnetization spectrum of a TMF with a CMD lattice, the normal field Hpq decreases to zero. In the absence of an external magnetic field, the sample has In the sequence described in step A, recording the absorption spectrum of the high-frequency power of the band domain structure of the TMP (Fig. 2 curve b) by subtracting the spectrum of the band structure from the TMP spectrum with the CMD grid (Fig. 2, curve a) Fig. 2, curve b), the spectrum of the collapse of the CMD lattice is determined (Fig. 2, curve C) The spectrum obtained is characterized by the presence of two inflection points H and indicates the heterogeneity of the structure of the set of CMD: the presence of domains of different rigidity in the lattice determines the width H (; (- HQ, and local defects cause the spectrum to blur in the direction of high fields H T Hcij) If the film is certified for uniformity, then the scanning unit 5 with a given step (p. 2) the measured area is changed and in the listed order (p. 1-6)

The parameters of the collapse are measured in different parts of the sample.

The use of the proposed method for determining the strength of the CMD lattice collapse field as compared with the known methods allows the integral determination of lattice collapse parameters with a registered number of domains up to 10 (on a memory chip) necessary for the development of high-capacity memory, which is one of the main tasks of magnetic memory. electronics; automation and a significant reduction in measurement time (recording of the spectrum of the lattice collapse takes about 5 minutes, while determining the spread of collapse fields using magneto-optics takes almost 30 minutes); the possibility of the homogeneity of TMP.

Claims (2)

1. US Patent No. 3913971, cl. publish 1978 2.Bell Syst, Tech. Jpnr. v. 51, 11972, p. (prototype).