JPH02126448A - Bulk eraser for magneto-optical disk - Google Patents

Abstract

PURPOSE:To erase the entire plane of a disk in a short time by irradiating a disk rotating at high speed by a light beam having a linear or oblong cross-section in the radius direction of a magneto-optical disk, and also, applying an erasing magnetic field on the disk. CONSTITUTION:An optical head 1 generates the light beam having the linear or oblong cross-section in the radius direction of the magneto-optical disk 4 by a laser diode with high output. The disk 4 is rotated at high speed, and the irradiation of a strong light beam is applied on the disk from the optical head 1 while moving in the radius direction of the disk 4. And erasure is performed by increasing the temperature at the irradiated part of a recording film to the vicinity of a Curie temperature, and applying the erasing magnetic field by a bias magnet 5. In such a manner, since it is possible to erase a large number of tracks to be irradiated in a single action by the light beam having the linear or oblong cross-section in the radius direction, a time required for the erasure of the entire plane can be shortened.

Description

DETAILED DESCRIPTION OF THE INVENTION (1) Technical field to which the invention pertains The present invention relates to an apparatus for completely erasing the contents recorded on a magneto-optical disk in a short period of time.

(2) Conventional technology and its problems When manufacturing a magneto-optical disk, the recording film is formed by vapor deposition or sputtering, but since the newly manufactured recording film has a stray magnetization pattern, This needs to be completely erased. In addition, it is possible to erase test signals recorded during testing of magneto-optical disks,
Furthermore, it becomes necessary to erase the entire surface of the magneto-optical disk while it is in use.

When a normal magneto-optical disk device is used to erase the entire surface of a magneto-optical disk, the optical disk is irradiated with a small spot of about 1 pI11 diameter of a laser beam to raise the temperature of the recording film to near the Curie temperature, and as a result, An erasing magnetic field is applied to the part where the coercive force suddenly decreases to erase the data. However, since the magneto-optical disk has a very large recording capacity, it has the disadvantage that it takes a long time to erase the entire surface (because it erases data in a small spot of about 1n diameter).

(3) Purpose of the Invention The object of the present invention is to provide a bulk eraser for a magneto-optical disk that can erase the entire surface of the magneto-optical disk in a short period of time.

(4) Structure of the Invention (4-1) Features of the Invention and Differences from the Prior Art The present invention uses a high-power laser diode to create a linear or oblong cross section in the radial direction of a magneto-optical disk. irradiating the rotating magneto-optical disk with the light beam while moving the light beam in the radial direction of the magneto-optical disk;
This bulk eraser for magneto-optical disks has the most important feature of applying an erasing magnetic field to the irradiated area.

In the optical head of the first embodiment, a laser diode with a linearly spread light emitting point is used, and after collimating the light beam with a collimator lens, the far field characteristics (far field pattern) of the light emitting beam of the laser diode are changed. An anamorphic prism is used to widen the narrow end so that the light flux is almost the same as the wide end, and an objective lens projects the light emitting point of the laser diode onto the magneto-optical disk, creating a linear light beam spot. It is tied onto the disk.

In the optical head of the second embodiment, a light beam from a high-power laser diode having a light emission distribution with a uniform wavefront with little astigmatism is made into a parallel light beam by a collimator lens, and the far-field pattern of the laser diode light emission is narrow. The part that has become a parallel light beam is narrowed down further through an ellipse correction prism using an anamorphic prism to create a parallel light beam with a long elliptical cross section, and this parallel light beam is focused onto a magneto-optical disk by an objective lens. I'm in the middle of the day.

The apparatus of the present invention connects a linear or oblong optical beam spot onto a magneto-optical disk as described in the first and second embodiments. The relationship between the rotation speed and the feed speed of the 2D to light is as follows:
The width to be erased per one revolution of the magneto-optical disk is configured to be slightly larger than the movement width of the optical head during that period.

The focus error detection method of the device of the present invention is to converge the parallel light beam of a linear or oblong cross-section light beam reflected from a magneto-optical disk using a condenser lens, provide a knife at the focal point of the light beam, and then use is applied to a two-split photodiode, and the difference in output current from both photodiodes is used as a focus error signal. It is characterized by being provided on the diameter side.

In conventional magneto-optical disk drives, the diameter I is narrowed down to a - point.
Since erasing was performed using a light beam spot of about n, it took a long time to erase the entire surface.

In the apparatus of the present invention, for example, a long elliptical light beam spot with a major axis length of 45 mm is used to erase more than 20 tracks, including lands and groups, so that the time required for erasing the entire surface is extremely shortened, and the length of the entire surface is 130 mm. It becomes possible to erase a magneto-optical disk of the same diameter in less than one minute.

(4-2) Example [Example-1] FIG. 1 is a diagram illustrating a first example of a bulk eraser for a magneto-optical disk according to the present invention. 1 is an optical head, 2
is a moving stage for the optical head, and the optical head 1 can freely move in both directions indicated by arrows. 3 is a motor for rotating the disk, 4 is a magneto-optical disk, and 5 is a bias magnet which generates a magnetic field for aligning the direction of magnetization of the magneto-optical disk 4 in the erasing direction. Reference numeral 6 denotes a linear light beam spot, the length direction of which coincides with the radial direction of the magneto-optical disk 4.

When the magneto-optical disk 4 whose entire surface is to be erased is attached to the apparatus of the present invention and the erase start switch is turned on, the magneto-optical disk 4 is irradiated with a powerful light beam from the optical head 1 while rotating at high speed. The temperature of the recording film in that part rises to near the Curie temperature, and the coercive force rapidly decreases accordingly, so that the bias magnet 5 erases the recording. The polarity of the erasing magnetic field can be arbitrarily selected depending on the specifications of the device, whether N or S.

FIG. 2 shows a configuration for forming a linear strong light spot and a configuration for detecting a focus error. 7
8 is a high-output laser diode having a linear light emitting point, and 8 is a Peltier element for cooling the heat generated from the high-output laser diode 7. 9 is a lead wire to the Peltier element 8, 10 is a cooling fin, 11 is a collimator lens for collimating the light from the laser diode 7, and 12 is an ellipse correction prism, which is an anamorphic prism with different magnifications in the vertical and horizontal directions. The cross section of the light beam used is approximately circular. 13 is a polarizing beam splitter (PBS), 14 is a condenser lens (condensing lens), and 15 is a two-split photodiode, which is used together with the knife 16 to detect focus errors.

17 is a total reflection mirror, 18 is a λ/4 plate, 19 is an objective lens actuator, 20 is an objective lens, and 21 is a magneto-optical disk.

The laser beam from the laser diode 7 having a linear light emitting point becomes a parallel beam of light at the output of the collimator lens 11.
The narrow part of the far-field characteristic (far-field pattern) of the laser beam is widened by an ellipse correction prism 12 made of an anamorphic prism to form a nearly circular parallel beam of light, and this parallel beam is focused onto a magneto-optical disk 21 by an objective lens 20. can be connected to obtain a linear light beam spot. The actual size of the light beam spot on the magneto-optical disk 21 is, for example, length 45Q9 and width 1.5- as shown in FIG. When erasing with a normal magneto-optical disk device, the optical disk is erased while being irradiated with a small light beam spot with a diameter of about 1, so using the bulk eraser device of the present invention, it is possible to erase the entire surface. You can see that the time will be significantly shorter.

Since the device of the present invention uses a linear light beam spot, if the focus shifts, the spot size changes sharply in the width direction, but the spot size changes sharply in the length direction. There are few changes. For this reason, the normal focus error detection method cannot be used as is.

In the apparatus of the present invention, the circular parallel light beam reflected and returned from the magneto-optical disk 21 is condensed by the condenser lens 14, a knife lens 16 is provided at the focal point, and focus detection is performed by the two-split photodiode 15. In other words, the so-called A focus error detection method using a knife method is used, and in this case, a knife is provided in the width direction of a linear light spot.

FIG. 3 depicts only necessary parts extracted from the configuration of FIG. 2 in order to explain the focus error detection method using the Naifezi method. Magneto-optical disk 2 when the focus of the laser beam is formed on the magneto-optical disk 21
The optical path of the reflected light from the magneto-optical disk 2 is shown by a solid line.
The optical path of the reflected light from the magneto-optical disk 21 is shown by a dotted line when the angle 1 is shifted by ΔZ toward the objective lens. The light beam in FIG. 3 is drawn as viewed from the width side of a linear cross section.

A knife 16 is provided at a position where the laser beam is focused on the magneto-optical disk 21 and the reflected light from the magneto-optical disk 21 is focused. 2-split photodiode 1
The output voltage of the differential amplifier 22 takes a positive or negative value depending on the output current difference from the two photodiodes 5, and the control circuit performs focus servo according to the output of the differential amplifier 22.

[Embodiment 2] FIG. 4 is a diagram illustrating a second embodiment of the present invention. In the first embodiment, a laser diode 7 having a linear light emitting point is used in the optical head to form a linear light beam spot, but in the second embodiment, a linear light beam spot is formed using a laser diode 7 having a linear light emitting point. A high-output laser diode 23 with a light emission distribution is used to form an oblong light beam spot. The narrow part of the far field characteristic (far field pattern) of the emitted beam of the laser diode 23 is further narrowed (
The diaphragm produces an elongated parallel light beam, and this parallel light beam is focused onto the magneto-optical disk 21 by the objective lens 20, thereby making it possible to obtain an elongated light beam spot.

The size of the beam spot on the magneto-optical disk 21 is, for example, 45 μm at the major axis and 1.5 μm at the minor axis, as in Example-1.

The configuration of the bulk eraser of Example-2 is completely the same as Example-1 except for the above.

(5) As described in detail, the device of the present invention emits a light beam having a linear or oblong cross section in the radial direction of the magneto-optical disk.
A rotating magneto-optical disk is irradiated with the light beam, and the light beam is moved in the radial direction of the magneto-optical disk to erase a large number of tracks at once. When manufacturing a magneto-optical disk, the recording film is formed by vapor deposition or sputtering. However, since the newly manufactured recording film has a stray magnetization pattern, it is necessary to completely cover the entire surface of the disk before using it for the first time. need to be erased. There are also cases where it is desired to erase test signals recorded during inspection of a magneto-optical disk or to completely erase recorded contents while the magneto-optical disk is in use. In such a case, the use of the apparatus of the present invention has the advantage that the time required for erasing the entire surface is extremely short, so it is particularly convenient to use when manufacturing magneto-optical disks, and is also an effective apparatus for the user.

[Brief explanation of the drawing]

Fig. 1 is a perspective view showing the configuration of the main part of a bulk eraser for a magneto-optical disk according to the present invention, Fig. 2 (a) 5 [present])
and (C) are a front view, a plan view, and a side view showing the configuration of the first embodiment of the present invention, and FIG. 3 is a system diagram for explaining the focus error signal detection method using the Knifezi method used in the present invention. FIGS. 4(a), 4(b), and 4(C) are a front view, a plan view, and a side view showing the configuration of a second embodiment of the present invention. 1... Optical head, 2... Moving stage, 3
... Disk rotation motor, 4.21... Magneto-optical disk, 5... Bias magnet, 6... Linear or oblong optical spot, 7... High-power laser diode, 8 ...Bertier element, 9...Conducting wire, 10...Cooling fin, 11...Collimator lens, 12...Ellipse correction prism, 13...Deflection beam splitter, 14...Condenser lens (condenser lens) optical lens), 15...2-split photodiode, 16
...Naifetsuji, 17...Total reflection mirror 1
8...λ/4 plate, 19... Objective lens actuator, 20... Objective lens, 22... Differential amplifier, 23... High output laser diode. Patent applicant Shibatsuku Co., Ltd.

Claims (4)

[Claims] (1) Irradiation means for forming a light beam having a linear or oblong cross-section, the length direction of the line or the direction of the major axis of the ellipse being the radial direction of the magneto-optical disk, and irradiating the magneto-optical disk. a driving means for rotating the magneto-optical disk and moving the light beam in the radial direction of the rotating magneto-optical disk; applying an erasing magnetic field to a portion of the magneto-optical disk that is irradiated with the light beam; and a magneto-optical drive means configured to control the drive means at a moving speed such that the width erased per revolution of the magneto-optical disk is slightly larger than the movement width of the optical head during that period. Disc bulk eraser. (2) A laser diode with a linearly spread light emitting point is used as an optical head of the irradiation means, and the linear light emitting point of the laser diode is configured to project and irradiate onto a magneto-optical disk. A bulk eraser for a magneto-optical disk according to claim 1. (3) The light beam from the laser diode attached to the optical head is made into a parallel light beam by a collimator lens, and the part where the narrower far field pattern of the light emission from the laser diode becomes the parallel light beam is further processed using an ellipse correction prism. Claim 1, characterized in that the irradiation means is configured such that the light beam is narrowly converged to form a parallel light beam having a long elliptical cross section, and this parallel light beam is focused on a magneto-optical disk by an objective lens. Bulk eraser for magneto-optical disks as described. (4) A condenser lens condenses the parallel light beam of a linear or oblong elliptical diameter cross section of the light beam reflected from the magneto-optical disk.
A knife edge is provided on the width side of the linear light beam or the short axis side of the oblong light beam at its focal point, and the light beam that has passed through this knife edge is irradiated onto a two-split photodiode, and both photodiodes are 2. A bulk eraser for a magneto-optical disk according to claim 1, wherein said irradiation means is formed so as to use a difference in output current from the diode as a focus error signal for automatic focusing control.