NL8403950A - METHOD AND APPARATUS FOR REPRODUCING MAGNETIC INFORMATION. - Google Patents

Description

N.0. 32930 9 ._

Method and device for reproducing magnetic 'information.

The invention relates to a method for reproducing magnetically recorded information by reading out information from a magnetic recording medium, such as a magnetic tape or a magnetic disk, using a thin-film type magnetic head and an apparatus for outputting of the method. This invention particularly relates to a method of reproducing magnetically recorded information in which a light beam incident on an inductive thin-film type magnetic head detects a change in intensity of the light beam reflected from the magnetic head which is caused by the effect of Kerr, and the internal magnetization direction is detected in the magnetic head, and on a device for performing the method.

For recording information in a magnetic recording medium, such as a magnetic tape or a magnetic disk and reproducing the information therefrom, various methods are known so far and various new techniques have been developed, according to which the magnetic material and the magnetic head are improved to increase the recording density. In order to significantly improve the recording density 20, it is necessary that the reproduction of the signal is performed at an output signal of sufficient size even when the moving speed of the magnetic tape or of the magnetic disk relative to the magnetic head is significantly reduced. In the case of a magnetic head of the inductive type 25, the output signal naturally decreases to an impractical level when the tape speed (magnetic disk rotational speed) during the signal reproduction is decreased. Since in the case of an inductive-type magnetic head, the output level in reproduction depends on the track width, the extent to which the track density can be increased by narrowing the track width is limited. However, there is a need to further increase the track density.

Therefore, instead of a magnetic head of the inductive type, which provides the rate of change of the internal magnetization of the magnetic head as an output signal, a magnetic head with a magnetic flux response has been recently proposed, which responds directly to the direction and degree of magnetization in a magnetic recording medium. The magnetic flux response magnetic head 8403950 2 '* V- * * measuring head is called a magnetic resistance head. Since in the magnetic head with magnetic flux response, the output signal in reproduction does not depend on the tape transport speed or track width, it is possible to reproduce information recorded at a high density. However, the magnetic head with magnetic flux response is disadvantageous in practice, because the output signal fluctuates strongly with temperature changes during reproduction, because the manufacturing costs are high because the magnetic head has a special configuration and because it is not always possible to obtain a magnetic head having constant properties. shows.

It has also been proposed to incident a light beam on a special magnetic-optical recording medium, detecting the light beam reflected from the recording medium and reading the internal magnetization state of the recording medium by applying the effect of Kerr. However, this system is disadvantageous in practice, because a special magnetic-optical recording medium must be used.

The object of the invention is to provide a method for reproducing magnetically recorded information, wherein reproduction by magnetic flux response is performed using a known magnetic recording medium, such as a magnetic tape, together with a head obtained by partially modify the known magnetic head of the inductive thin film type.

Another object of the invention is to provide a method for reproducing magnetically recorded information, which makes it possible to reproduce information recorded at a high density and the method is suitable for practical application.

In particular, the invention also aims to provide an apparatus for carrying out the method.

The invention is characterized in that a transparent material is used as the substrate of the thin-film type magnetic head, that a light beam is incident obliquely on the magnetic head from the substrate side and a change in intensity of the light beam is detected. is reflected by the magnetic head, which is caused by the transverse effect of Kerr, detecting the internal magnetization direction of the thin-film type magnetic head.

8403950 t 3

That is, the invention is characterized in that the direction and the degree of internal magnetization in the magnetic head of the thin film type is photoelectrically detected using the transverse effect of Kerr and wherein signal detection according to the magnetic flux response principle is possible instead of signal detection according to the inductive principle and where the recorded information is detected even when the magnetic recording medium is moved at a very low speed.

According to the invention, it is possible to perform the reproduction according to the magnetic flux response principle by using a known magnetic recording medium, such as a magnetic tape or a magnetic disk, and a magnetic head, which is obtained in a simple manner by replacing the magnetic substrate of the known thin-film type magnetic head through a transparent substrate. Therefore, the information recorded at a high density can be reproduced at low cost and the invention is very advantageous in practical application.

Since, in particular, according to the invention, the level of the output signal in reproduction does not depend on the track width 20 but depends on the power of the light beam, such as a laser beam used for reproduction, it is possible to decrease the output signal in reproduction. by adjusting the power of the light beam even when the track width is small. Therefore, it is possible to reproduce information recorded with a small track width and a high track density.

The invention will be explained in more detail below with reference to the drawings. In the drawings show:

Fig. 1 is a front view of an embodiment of a thin-film type magnetic head used in the method of reproducing magnetically recorded information according to the invention, FIG. 2 is a vertical section of the magnetic head of FIG. 1, FIG. 3 is a perspective view of an embodiment of the method for reproducing magnetically recorded information according to the invention, FIG. 4 a top view of another embodiment of the method for reproducing magnetically recorded information according to the invention, FIG. 5 a front view of fig. 4, 40 fig. 6 a vertical section of fig. 4, 8403250 4 fig. 7 a top view of another embodiment of the method for reproducing magnetically recorded information according to the invention, and fig. 8 a top view of a multi-track magnetic tape from which the information is reproduced according to an embodiment of n the method of the invention.

Fig. 1 is a front view of the basic shape of a thin film type magnetic head 1 and FIG. 2 is a vertical section of the magnetic head of FIG. 1. The magnetic head 1 comprises a transparent substrate 10, a lower magnetic pole element 11, an insulating layer 12, a conductive coil layer 13, an insulating layer 14 and an upper magnetic pole element 15, which are stacked in this order on the transparent substrate 10. An end portion of the lower magnetic pole element 11 faces an end portion of the upper magnetic pole element 15, with an end portion of the insulating layer 12 lying therebetween to form a gap 16 of the magnetic chain.

One end portion 13A of the conductive coil layer 13 is extended outwardly to connect an external electrical circuit thereto, while the other end portion 13B is connected to a conductor 17. The basic shape of the magnetic head 1 is described, for example, in Japanese Patent Application Laid-Open No. 58 (1983) -111115.

According to the invention, the substrate 10 is made of a transparent hard material with a smooth surface (surfaces corresponding to a mirror 25). For example, a single crystal sapphire can be used as the substrate type material.

As shown in Fig. 3, the magnetic head 1 provided with the transparent substrate is mounted on a magnetic recording medium 20, such as a magnetic tape, so that the slit 16 contacts the magnetic recording medium 20. A light beam 30, such as a laser beam incurs obliquely via the substrate 10 on the rear surface of the lower magnetic pole element 11. The direction of incidence of the light beam 30 is set such that the light beam 30 incident on the rear surface of the lower magnetic pole element 11 at an oblique angle. In view thereof and in a plane perpendicular to the internal magnetization directions of the magnetic head 1, as indicated by the arrows. By "oblique angle" is meant such an angle that the angle Θ of incidence in the above plane is nearly 80 ° (Θ · = 80 ° when the magnetic pole element is made of Permalloy and a 40 predetermined optimum value when the magnetic pole element 8403350 c · 5 is made of a different material).

The incident light beam 30 is reflected by the rear face of the lower magnetic pole element 11, opposite to the incident direction, as indicated by a reflected light beam 31.

At this time, the reflection from the rear face of the lower magnetic pole element 11 is changed by the transverse effect of Kerr as the state of the internal magnetization changes. Therefore, when the reflected light beam 31 is photoelectrically detected by means of a photosensor 35, the output of the photosensor 35 indicates the direction and degree of the internal magnetization. In this way, it is possible to detect and reproduce the information recorded on the magnetic recording medium 20.

Fig. 4 shows another embodiment of the method for reproducing magnetically recorded information according to the invention, wherein the magnetic head 1 comprises many lower magnetic pole elements 11A, which are arranged parallel to each other, and wherein optical systems are present in a number of equal to the number of lower magnetic pole elements 11A, so that a multi-head type reproduction is performed. In Fig. 4, only the bottom magnetic pole elements 11A and a common substrate 10A on which these pole elements 11A are mounted are shown, while the other elements are not shown. Fig. 5 is a front view of the device of FIG. 4 and FIG. 6 is a vertical section of the device of FIG. 4. In FIGS. 4, 5 and 6, corresponding elements have the same reference numerals as in FIG. 1. , 2 and 3 indicated. In Fig. 5, the markings shown in the magnetic tape 20 indicate the magnetization directions of digital signals recorded on the magnetic tape 20.

In the multiple head 30 embodiment shown in FIGS. 4, 5 and 6, it is possible to simultaneously register and reproduce more channels by using a single magnetic head unit.

Fig. 7 shows another embodiment of the method of reproducing magnetically recorded information according to the invention, wherein a multi-head type header configuration chip 40 containing many lower magnetic pole elements mounted on a single magnetic head is used and by a laser beam is scanned. In this embodiment, it is possible to perform a multiple reproduction using a single laser-40 beam. Specifically, the laser beam 41A emitted by a laser beam source 404050-1-3 is reflected from a rotatable prism 42, which laser beam incident on the head configuration chip 40 through an objective lens 43, to scan the head configuration chip 40 . A laser beam 41B which is reflected by the head configuration chip 40 is collimated by a collimation lens 44 and then incident on a photo multiplier 46 via a condensing lens 45. The output of the photo multiplier 46 is amplified by an amplifier 47 and changes of the reflection on the head configuration chip 40 is detected, detecting the information recorded on the magnetic recording medium.

As shown in Fig. 4, when the magnetic recording medium 20, such as a magnetic tape, is conveyed in the direction indicated by the arrow A and the laser beam is switched as indicated by 30A, 30B, ..., 30N, it is possible to detect the recorded information slightly obliquely to the width direction of the magnetic recording medium 20. By repeating this operation, it is possible to perform strip signal detection over the entire magnetic recording medium 20. Furthermore, when as shown in Fig. 8, a first track 20 (i.e. a line connecting the read regions of a bit, as indicated by the mark "o") and a second track (as indicated by the mark "x") ") Are arranged alternately in strip form, it is possible to further increase the recording density on the magnetic recording medium. In Fig. 8, arrows B and C 25 indicate the return directions of the first track and the second track.

Although the above-mentioned embodiments apply to the case of a magnetic tape, the invention can be used in the same way for a magnetic disk. For example, it is possible to form a multiple head by arranging many heads in the radial direction of the magnetic disk. In this case, it is possible to perform a multi-channel reproduction by having many laser beams incident parallel to each other on the multiple head unit, or to perform a reproduction by scanning by a single laser beam such as is shown in Fig. 8, the system of Fig. 7 being applied »8403950

Claims (6)

A method of reproducing magnetically recorded information, characterized by; incident a light beam onto a portion of a surface of a magnetic layer of an inductive thin film type magnetic head to record the recorded information on a magnetic recording medium which is in contact with a slit of a magnetic chain transported, based on a change of the internal magnetization, such that the light beam is incident at an oblique angle to the surface of the magnetic layer and in a plane substantially perpendicular to the direction of the internal magnetization in that portion of the surface of the magnetic layer, detecting the light beam reflected by the portion of the surface of the magnetic layer, and detecting the direction of the internal magnetization based on the intensity of the reflected light beam. 2. A method according to claim 1, characterized in that the magnetic head is of the multi-head type, which consists of a number of magnetic layer parts and a number of light beams incident on the magnetic layer parts. A method according to claim 1, characterized in that the magnetic head is of the multi-head type, which consists of a number of magnetic layer parts and the magnetic layer parts are scanned by a single light beam. 4. Apparatus for reproducing magnetically recorded information, characterized by an inductive thin film type magnetic head for detecting recorded information on a magnetic recording medium transported in contact with a magnetic chain gap, based on of a change of the internal magnetization, which magnetic head consists of a transparent substrate and a stacked layer configuration on the transparent substrate, a means for projecting a light beam incident via the transparent substrate onto a part of a surface of a magnetic layer of the magnetic head so that the light beam is incident at an oblique angle to the surface of the magnetic layer and in a plane substantially perpendicular to the direction of the internal magnetization in that part of the surface of the magnetic layer, and a photoelectric converter to receive the. 40 light beam reflected by the part of the surface of the magnetic layer 8403950 4-* I * and for converting the Intensity of the reflected light beam into an electrical signal » 5. Device according to claim 4, characterized in that the magnetic head is of the multi-head type, which consists of a number of magnetic layer parts and that the projection means and the photoelectric conversion means are arranged for each of the magnetic layer parts. . 6. Device as claimed in claim 4, characterized in that the magnetic head is of the multi-head type, which consists of a number of magnetic layer deleti and that the projection means is provided with a means for scanning the magnetic layer parts by means of of the beam. 1-H-1-H-h 8403950