JP2579965B2 - Magneto-optical recording method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Summary] The present invention relates to a magneto-optical recording method, and in particular, to an overwriting method thereof, which aims at enabling overwriting to be performed easily and at a high speed, and for writable power to a recording unit. Irradiating a pulsed light having the following characteristics, and writing is not possible except for the recording part, but by irradiating continuous light having a power which is stronger than the reading light and has a power capable of erasing the already written information, the information is written to the recording part. A method of overwriting on a magneto-optical recording medium is characterized in that information is recorded or retained, while information is erased or unrecorded in a non-recording portion.

[Industrial applications]

The present invention relates to a magneto-optical recording method, and more particularly, to a method for overwriting information on a magneto-optical recording medium.

[Conventional technology]

In a conventional magneto-optical disk, information is recorded, reproduced, and erased in the following manner: Recording: A high-power laser beam is applied to a recording medium of a disk whose magnetization direction is aligned in one direction. Irradiation heats the Curie temperature or the compensation temperature or higher, and the magnetization direction of only the laser irradiated portion is made to be the same as the direction of the external magnetic field by the external magnetic field. This information recording is performed by modulating the laser intensity.

Reproduction: A low-power laser beam is applied to the recording medium,
The recording codes "0" and "1" are read in the direction of rotation of the plane of polarization of the reflected light due to the magnetic Kerr effect.

Erase: Irradiate the recording medium with a high-power laser beam,
The direction of magnetization is restored by an external magnetic field in the direction opposite to the recording.

In this conventional information recording method, the direction of magnetization of the recording medium changes only in a portion irradiated with a high-power laser beam. Therefore, in order to rewrite information once recorded with new information, the old information must be erased once. Before writing new information. Therefore, it is necessary to rotate the disk at least two times to rewrite the information, and the information writing speed is reduced by that much.

In order to increase the information writing speed, several overwriting methods have been proposed. For example, Appl, Phys, Lett. 49 (8) 473, 1986 proposes a method for recording and erasing information using a demagnetizing field. According to this method, in the case of erasing, if writing is performed, an erasing beam is applied to the center of the written bit to erase it. If not writing, nothing is performed. While checking whether or not there is a certain bit, if there is no bit, a new bit is written, and if there is already a bit, nothing is performed, thereby performing overwriting. This method will be described with reference to FIG. 3. In FIG. 3, (A) shows the distribution of existing, that is, already written, recording bits, (B) shows the distribution of bits to be newly recorded, (C) shows the pulse waveform of the beam actually irradiated. From the figure,
To remove an existing bit, the center of the bit is weak (however,
It will be understood that when the erase pulse 2 is applied and the existing bit is taken over as the new bit, nothing is done, and the strong recording pulse 1 is applied to form the new bit. . Where the existing bits are
It is common to read with another light beam preceding the recording beam. The reason why a weak pulse is applied only to the center of the existing bit to remove the existing bit is that another small bubble is formed at the center of the already formed bubble, and these bubbles interact with each other to form a bit. Is lost.

[Problems to be solved by the invention]

The overwriting method described with reference to FIG. 3 in the section of the prior art is considered to be a very effective means for increasing the speed of a magneto-optical disk. This method
However, there is a problem that the position of the already written information must be accurately detected before the information is rewritten. Such position detection is complicated and time-consuming, and it is not possible to perform correct rewriting when there is an actual positional deviation.

An object of the present invention is to enable overwriting to be performed easily and at high speed in recording information on a magneto-optical disk by overwriting.

[Means for solving the problem]

The object of the present invention is to provide, according to the present invention, a) a magneto-optical recording substrate having a magneto-optical recording film having a perpendicular magnetization characteristic and having an information recording track, wherein the information recording track has a magnetic information recorded thereon. B) sufficient to erase the recorded information, but not enough to write the information therein, with or without the recorded information formed on the information recording track; C) selectively irradiating the information recording track with a write beam of sufficient power to write information according to the information to be overwritten, while continuously irradiating a power erasing beam; Thus, by continuous beam irradiation, information is written or retained in the recording portion, while overwriting is performed in the non-recording portion to erase or leave the information unrecorded. Magneto-optical recording method characterized by.

Is achieved by providing.

The method of the present invention will be described with reference to FIG. FIGS. 1A and 1B are the same as FIGS. 3A and 3B.
In FIG. 1 (C), a pulse light 11 having a power for writing information is applied to a bit on which information is to be recorded in the overwriting, regardless of whether or not the information was written before the overwriting. I do. According to the recording method of the present invention, information is written and erased by using a demagnetizing field without using an external magnetic field (although an external magnetic field may be present). Therefore, when irradiating pulse light having a writable power, if information is not recorded before overwriting, the magnetic field of the light irradiation unit is inverted by the action of the demagnetizing field by being irradiated with the writing light, that is, If the information is written before the overwriting, the information is written, and even if the writing light is irradiated, the magnetic field does not reverse and remains as it is,
That is, information remains.

In addition, in portions other than the bits where information is to be recorded in overwriting, the power is higher than that of the read light 12 having a power that does not affect the recorded information, and is smaller than the power at which information can be written. And a continuous light 13 having a power capable of erasing already written information is irradiated. The present invention provides a continuous light having an intermediate power larger than the reading light and smaller than the writing light.
It is based on the finding that information already written can be erased. In other words, in the above-mentioned Appl.Phys.Lett., It is reported that the recorded information can be erased by the action of a demagnetizing field by irradiating the central part of the recording bit with light smaller than the recording bit. As described above, it is not easy to accurately apply the erase beam. However, the present inventors have found that, by irradiating light having an appropriate intermediate power, even if irradiating continuous light instead of pulse light, recorded information can be erased, and unrecorded portions can be erased. No writing is performed. Therefore, it is not necessary to perform a difficult operation of accurately irradiating an erasing beam to the center of a bit to be erased in information written before overwriting, and merely continuously irradiates light having a specific intermediate power. Information can be erased only by using

In using the method of the present invention, the magneto-optical recording medium is initially initialized so that the direction of magnetization is forcibly magnetized in one direction, and is written once and then overwritten (overwritten). It is. In principle, once overwriting is performed, only overwriting is repeated, but the medium may be initialized again during use.

In carrying out the method of the present invention, any magneto-optical medium known in the art can be used. As an example, a glass substrate is used as a substrate, and a pre-groove pattern layer made of an organic resin such as an ultraviolet curable resin (a so-called photopolymer) having a pre-groove pattern formed thereon, polymethyl methacrylate, or polycarbonate is disposed on the substrate. I do. Further, a magneto-optical recording medium layer is disposed on this layer. This layer is not only excellent in characteristics, but also can be formed by a sputtering method or a vapor deposition method, and the area of the medium can be easily increased. Therefore, it is advantageous to form the layer from a rare earth-transition metal amorphous alloy. is there.
However, if desired, other media materials, such as MnB
It may be formed from a polycrystalline material such as i, MnCuBi, or a garnet-based single crystal material.

In order to protect the recording medium layer from the action of moisture and monomers in the former layer, it is preferable to interpose a protective film often called an underlayer between the pre-groove pattern layer and the recording medium layer. This protective film is made of, for example, SiO ₂ , TiO ₂ , ZnS, AlN, Si
It can be formed from materials such as ₃ N _4. Further, a protective film made of the same material as the protective film is formed on the recording medium layer 4.
It is preferred to form above. The protective film above this
This is effective for protecting the recording medium layer from the influence of moisture or the like in the outside air.

The above-described magneto-optical disk can be overwritten with information by changing any disk device that is also known in the art, for example, by introducing an LD modulation circuit.

(Operation)

According to the method of the present invention, information can be erased only by irradiating light of low power, and there is no need to perform an operation of hitting the center of a recording bit. In addition, writing can be performed by increasing the power at the timing of recording the bit. Therefore, overwriting can be performed very simply and quickly.

〔Example〕

A recording layer was formed by sputtering Tb ₂₄ Fe ₆₈ Co ₈ to a film thickness of 100 nm on a grooved glass substrate, and SiNx was deposited thereon as a protective film.

After initializing this magneto-optical disk and performing writing, as shown in FIG. 1 (C), a writing light pulse is irradiated at the timing when information is to be recorded in rewriting, and the rest is written with writing light 11 and reading light. Continuous light 13 having an intermediate power of light (light having no effect on written or unwritten information) 12 was irradiated.

The result is shown in FIG. On the upper left side of the line segment A where the writing power, that is, the erasing power is larger than the recording power, writing cannot be performed after erasing, and generally below the line segment B where the erasing power is too small, erasing cannot be performed. On the right side of the excessive line segment C, erasing could not be performed after recording.
Since a power larger than the power required for erasing is applied to the upper left side of the line segment A, the magnetization direction after erasing is not constant, and a portion magnetized in the opposite direction (the same direction as recording) remains, resulting in poor signal quality. It is thought to be. Below the line segment B, power is insufficient and erasure, that is, reversal of the magnetic field cannot be performed. On the right side of the line segment C, the formed bit is too large, so that a portion that cannot be inverted remains and cannot be completely erased.

In any case, a simple overwriting method can be provided by adopting a specific write power from FIG. 2 and employing continuous light having a power smaller than the read power and higher than the read power and having an erasing ability in other than the write section. It is clear that it will be.

Next, from the results in FIG. 2, the power of the write pulse light was 7 mW, the power of the read light was 1 mW, and the power of the erase light was 4 mW.
And erasing light (4m
When the overwriting with irradiation was performed in W), the overwriting could be continued stably.

〔The invention's effect〕

According to the present invention, it is possible to perform simple and quick overwriting (overwriting) with one beam in magneto-optical recording.

[Brief description of the drawings]

FIG. 1 is a diagram for inventing the recording method of the present invention, FIG. 2 is a diagram showing the result of examining the optical power of recording and erasing and the possibility of repeating recording and erasing, and FIG. 3 is a diagram showing the conventional recording method. FIG. 1 write pulse, 2 erase pulse, 11 write pulse, 12 read light, 13 erase light.

 ──────────────────────────────────────────────────の Continuing from the front page (72) Inventor Kenichi Ito 1015 Uedanaka, Nakahara-ku, Kawasaki City, Kanagawa Prefecture Inside Fujitsu Limited (72) Inventor Seiya Ogawa 1015 Kamiodanaka, Nakahara-ku, Kawasaki City, Kanagawa Prefecture Fujitsu Limited (56) References JP-A-59-113506 (JP, A) JP-A-60-162768 (JP, A)

Claims (1)

(57) [Claims] 1. A) A magneto-optical recording substrate having a perpendicular magnetic characteristic and a magneto-optical recording film having an information recording track is prepared, and the information recording track has a magnetic domain in which information has already been recorded. B) an erasing beam of sufficient power to erase the recorded information, but not enough to write the information therein, irrespective of the presence or absence of the recorded information formed on the information recording track; C) selectively irradiating the information recording track with a write beam of sufficient power to write information according to the information to be overwritten, In this method, information is written or retained in a recording portion by objective beam irradiation, while overwriting is performed in a non-recording portion to erase or leave information unrecorded. Magnetic recording method.