Magneto-optical disk and method for producing same by...

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Reexamination Certificate

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C430S394000, C369S013030, C369S013400, C428S064200, C428S064400, C428S409000, C428S690000

Reexamination Certificate

active

06767697

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an optical disk used for recording/reproducing information and a method for producing the same.
2. Description of the Related Art
In the field of magneto-optical disks, there is a demand for high-density recording of information. As a method for realizing such high-density recording, a domain wall displacement detection (DWDD) system has been proposed.
In an optical disk of the DWDD system, it is required to weaken magnetic coupling between adjacent recording tracks. Therefore, in the case of producing an optical disk of the DWDD system, initialization for weakening magnetic coupling between adjacent recording tracks is conducted before recording an information signal. Such an initialization method has been reported in the past (see JP 6(1994)-290496 A and JP10(1998)-340493 A).
FIG. 10
shows an example of a structure and an initialization method of a conventional optical disk. As shown in
FIG. 10
, a conventional optical disk
1
includes a substrate
2
, and a first dielectric layer
3
, a recording layer
4
, a second dielectric layer
5
, and a protective coating layer
6
successively stacked on the substrate
2
. On the surface of the substrate
2
on the side of the recording layer
4
, grooves
2
a
are formed. A portion called a land is formed between two grooves
2
a
adjacent in the radial direction, and this portion becomes a recording track. The groove
2
a
has a width of, for example, 0.2 &mgr;m, and the land has a width of, for example, 1.4 &mgr;m. The recording layer
4
includes at least three magnetic layers for reproducing information by the DWDD system.
Next, an initialization method of the optical disk
1
will be described. According to the initialization method of the optical disk
1
, laser light
7
(laser power=10 mW, &lgr;=780 nm, NA of an objective lens 8=0.5, diameter of a light spot=about 800 nm) for annealing is radiated along the grooves
2
a
, thereby eliminating magnetic coupling of the recording layer
4
on the grooves
2
a
. During the initialization process, the relative moving speed of the light spot of the laser light
7
is, for example, 2 m/sec.
However, according to the initialization method as described above, portions other than the grooves
2
a
also are irradiated with a light spot. Therefore, an effective recording track becomes narrow, which decreases a signal level. This requires a light spot radiated to the recording layer
4
to be small. The first dielectric layer
3
is optimized in accordance with a wavelength of laser light for recording/reproducing, so that it is difficult to decrease the size of a light spot of the laser light
7
for annealing. Furthermore, for the same reason, it is difficult to enhance an absorption efficiency of the laser light
7
for annealing in the recording layer
4
, so that initialization at a high linear velocity cannot be conducted, resulting in a long initialization time.
SUMMARY OF THE INVENTION
Therefore, with the foregoing in mind, it is an object of the present invention to provide an optical disk having a high recording density, which can be initialized in a short period of time, and a method for producing the same.
In order to achieve the above-mentioned object, there is provided a method for producing an optical disk including a substrate and a recording layer disposed above the substrate and reproducing an information signal by a DWDD system, using light incident from the substrate side, the method including the processes of: (i) forming a first dielectric layer, the recording layer, and a second dielectric layer on the substrate in this order; and (ii) irradiating the recording layer with laser light for initialization from the second dielectric layer side, thereby weakening magnetic coupling of a part of the recording layer. According to the above-mentioned method for producing an optical disk, an optical disk can be produced with a high recording density and satisfactory productivity. In the present specification, the term “initialization” refers to a process of weakening magnetic coupling between recording tracks by annealing a part of the recording layer.
In the above-mentioned production method, it is preferable that a wavelength of the laser light for initialization is &lgr;, and a thickness of the second dielectric layer is in a range of &lgr;/(12×n) to &lgr;/(2×n) (where n is a refractive index of the second dielectric layer), particularly, in the vicinity of &lgr;/(4×n).
In the above-mentioned production method, the laser light for initialization may be obtained by condensing laser light by an objective lens with a numerical aperture of at least 0.65. According to this constitution, a laser spot can be made small, and an optical disk with a particularly high recording density can be produced.
In the above-mentioned production method, during the process (ii), the recording layer may be irradiated with laser light for tracking servo, whereby tracking servo is conducted. According to this constitution, the precision of tracking control is enhanced, so that positional precision in the radial direction of annealing also is enhanced, resulting in a stable DWDD operation.
In the above-mentioned production method, a wavelength of the laser light for initialization may be shorter than a wavelength of the laser light for tracking servo. According to this constitution, track density can be enhanced.
The above-mentioned production method further may include forming a heat conduction adjusting layer for adjusting the sensitivity of the recording layer on the second dielectric layer after the process (ii).
In the above-mentioned production method, during the process (ii), a region of the recording layer to be irradiated with the laser light for initialization may be heated before being irradiated with the laser light for initialization. According to this constitution, a time required for initialization can be shortened, and an optical disk can be produced with satisfactory productivity.
Furthermore, a first optical disk of the present invention includes a substrate and a recording layer disposed above the substrate, and reproduces an information signal by a DWDD system, using light incident from the substrate side, the optical disk further including a first dielectric layer disposed between the substrate and the recording layer and a second dielectric layer disposed on the recording layer opposite to the substrate, wherein magnetic coupling of a part of the recording layer is weakened by irradiation with light having a wavelength &lgr; incident from the second dielectric layer side, and a thickness of the second dielectric layer is in a range of &lgr;/(12×n) to &lgr;/(2×n), where n is a refractive index of the second dielectric layer. In the above-mentioned optical disk, a thickness of the second dielectric layer is stipulated in accordance with laser light for initialization. Therefore, a spot of laser light for initialization can be made small, and the annealing efficiency by laser light for initialization can be enhanced. Thus, according to the above-mentioned constitution, an optical disk with a high recording density is obtained that can be initialized in a short period of time.
In the above-mentioned first optical disk, the second dielectric layer may be made of silicon nitride and may have a thickness in a range of 40 nm to 60 nm, and the wavelength &lgr; may be in a range of 400 nm to 410 nm. According to this constitution, sufficient resistance to corrosion can be obtained. Furthermore, according to this constitution, the amount of light absorbed can be increased, and the energy of laser light required for initialization can be decreased.
In the above-mentioned first optical disk, the second dielectric layer may be made of silicon nitride and may have a thickness in a range of 25 nm to 30 nm, and the wavelength &lgr; may be in a range of 400 nm to 440 nm. According to this constitution, since the second dielectric layer is thin, an

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