SU809346A1 - Device for reading-out cylindrical magnetic domains - Google Patents

Description

one

The invention relates to computing and can be used in the construction of storage devices on cylindrical magnetic domains (CMD).

A device for detecting CMD is known, consisting of a node for expanding and advancing domains and the actual magnetoresistor sensors deposited on a magnetically-single-film film with CMD 1.

The main disadvantage of this device is the low signal-to-noise ratio.

The closest technical solution to the present invention is a CMD reading device, which contains a magnetically uniaxial film on which a magnetically coupled expander and a CMD readout sensor are located from successive groups of ferromagnetic applications L2 J.

A disadvantage of the known device for reading CMD is its low technological consistency due to the small size of the inter-element gaps. In addition, as the diameter of the CMD decreases, the requirements for the amplifying device (sensitivity, recovery time, stability, noise immunity) increase with increasing clock frequencies, since it is necessary to record short pulses with small amplitudes and a signal-to-interference ratio.

The purpose of the invention is to increase the reliability of the reading device.

CMD

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The goal is achieved by the fact that the ferromagnetic applications in groups are made in the shape of, the middle jumper of the ferromagnetic applications made with

5, the ratio of the sides from 1.1: 1 to 10: 1, the extreme jumpers of ferromagnetic applications are located with respect to the middle jumper at an angle of 100170 °, and the angle between the extreme jumpers of the ferrite-shaped applications of adjacent groups is from 0 to 120 °.

FIG. 1-4, various embodiments of ferro-magnetic magnetic applications are shown.

The device for reading the CMD contains a magnetically uniaxial film 1, on which the magnetically coupled expander 2 and the sensor 3 reading the CMD are located from successively located

Claims (2)

0 groups of ferromagnetic 4-shaped applications. The device operates as follows. When passing through the expander 2, the CMD is expanded into a stripe domain. The presence of 4 additional tensile poles in the ferromagnetic applications facilitates the domain transition from the inter-element gap to the next pole of the domain-propagating structure and provides. A satisfactory area of stable operation of this device with gaps 1.5–2 times larger than in devices on chevrons. In sensor 3, the contribution to the signal from the reversal of the inclined poles is weakened by side closures, the effective shape of these sensor zones is close to square, since the inclined poles are largely absorbed by bridges, and the magnetoresistive effect of a square configuration is, as you know, zero The optimum position for complete magnetization reversal is a medium jumper-like appliqué. Under the action of the control field for the middle jumper, the condition of its complete remagiexation — the reversal of the magnetic moments by 90 can be satisfied. This provides an increase in recoil of such a sensor compared to the scheme on chevrons, where the rotation of the magnetic moments does not reach 45 at the optimum angle at the top of 110 °. When using a sufficiently extended middle jumper (at least up to 40-50% relative to the period of the domain-promoting structures), a double (or close to this T excess of the width of the stripe-domain domain can be realized. As a result, when the domain is positioned along the axis of symmetry-shaped application the whole (or most) average jumper can re-magnetize, which, with the evenness of the magnetoresistive effect, causes the largest signal magnitude. These causes explain the bell-shaped signal of the domain detection signal an average in the middle and a duration of about half a period, which makes it possible to increase the reliability of a CMD reading device. Formula for reading cylindrical magnetic domains containing a magnetically uniaxial film on which a magnetically coupled expander and a sensor reading cylindrical magnetic domains from successive groups are located ferromagnetic applications, characterized in that, in order to increase the reliability of the device, ferromagnetic applications in groups are made of f-arr of an average shape, with the average jumper of ferromagnetic applications made with an aspect ratio of 1.1: 1 to 10: 1, the extreme perepivchki ferromagnetic applications are located relative to the middle jumper at an angle of 100-170 /, and the angle between the extreme jumpers of the shaped ferromagnetic applications of adjacent groups is from 0 to 120. Sources of information taken into account in the examination 1. Bobek A. Idela-Torre E. Cylindrical magnetic domains. Energy, 1977, s, 146. 2. US Patent No. 4120046, cl. 365-8, pub. 10.10.78 (prototype) Fig.Z Ut. If