JP2509716B2 - Light tape - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an optical tape for optically recording and / or reproducing, and more particularly, a formatting method for recording a guide track on the optical tape for formatting. It is about.

[Conventional technology]

Conventionally, various types of optical disks for optical recording and / or reproduction, that is, read-only type optical disks, write-once type or rewritable type optical disks capable of performing desired recording only once have been proposed. Among these optical discs, in the type in which information is recorded by a physical pit such as a read-only type, so-called tracking control is performed by guiding a light beam to the center of the pit row. In the case of recording that does not rely on physical pits such as a magneto-optical disk, generally, tracking control is performed by providing a guide groove having a rectangular cross-section showing a recording path of information on the substrate in advance. I am trying.

On the other hand, in recent years, as optical memory media other than optical discs,
So-called optical tape is being researched. This optical tape is basically formed by forming a recording layer for optically recording information by utilizing a magneto-optical effect or a photochromic phenomenon on a long film base material.

Like the magnetic tape for a VTR (video tape recorder), the above optical tape is housed in a cassette case so that the vicinity of the recording / playback portion is unwound from the cassette case, and is a track for recording information. Is set in a direction tilted with respect to the longitudinal direction of the optical tape and recorded /
Alternatively, it is conceivable to perform reproduction.

By the way, in optical tape, the base material is generally thin,
Moreover, since it has flexibility, it is extremely difficult to provide a guide groove for performing tracking control on the base material. Therefore, as a method of tracking control in an optical tape, a linear guide pattern is optically recorded in advance in a position adjacent to an actual track on the recording layer in parallel with the track, and the guide pattern is reproduced. However, a method has been proposed in which recording and reproducing are performed in parallel with the guide pattern (Japanese Patent Laid-Open No. 63-117326).
(See the official gazette).

[Problems to be Solved by the Invention]

However, according to the above method, in addition to a light source for recording / reproducing information on / from an optical tape, a photodetector, etc., a light source for recording a guide pattern and a light source for reproducing a guide pattern, a photodetector. Etc. are required separately, resulting in an increase in the number of parts of the optical head and an increase in cost.
Recording a guide pattern in addition to information on the recording layer has a problem that the recording density of information is reduced.

[Means for solving the problem]

In order to solve the above problems, an optical tape according to the present invention includes a substrate, a photochromic layer for recording a guide track pattern, and a recording layer for optically recording information, and the photochromic The thickness of the layer is d, the refractive index of the non-irradiated portion of the excitation light in the photochromic layer is n ₁ , the refractive index of the irradiated portion is n ₂ , and the light used for recording / reproducing information to / from the recording layer is When the wavelength is λ, it is characterized by satisfying the formula of λ / 16 ≦ | n ₁ −n ₂ | × d ≦ λ / 4.

[Action]

According to the above configuration, a photochromic layer is provided in addition to the recording layer, the photochromic layer has a thickness d, the refractive index of the excitation light non-irradiation site in the photochromic layer is n ₁ , the irradiation site If the refractive index is n ₂ and the wavelength of the light used for recording / reproducing information on / from the recording layer is λ, then the formula of λ / 16 ≦ | n ₁ −n ₂ | × d ≦ λ / 4 is satisfied. Therefore, the irradiation pattern of the excitation light with which the photochromic layer is irradiated functions as a phase-type guide track.

As described above, since the photochromic layer is provided on the optical tape in addition to the recording layer and the phase-type guide track pattern is recorded on the photochromic layer, recording / reproducing of information is performed on the optical tape based on accurate tracking control. In addition to the light source for recording / reproducing information and the photodetector, a light source for recording the guide track pattern on the photochromic layer is additionally required. Since the light source for recording the guide track pattern is not necessarily incorporated in the optical head for the optical tape and may be separately provided, the number of parts of the optical head can be reduced.

Also, since only the information is recorded on the recording layer,
The recording density of information in the recording layer does not decrease.

〔Example〕

An embodiment of the present invention will be described below with reference to FIGS. 1 and 2.

As shown in FIG. 1, an optical tape 1 according to this embodiment includes a film-shaped (for example, a thickness of several tens of μm) base material 2. The base material 2 is made of, for example, a light-transmitting and heat-resistant polymer resin such as polyethylene terephthalate. A suitable photochromic material on the substrate 2,
For example, α2,5 dimethy which is one of the fulgide derivatives
l-3-furylethylidene-isopropylidene succinic an
A photochromic layer 3 made of a photochromic material in which hydride is dispersed in PMMA (polymethylmethacrylate) is provided. The above photochromic material is excited by a laser beam of a He-Cd laser having a wavelength of 325 μm, and a change in the refractive index occurs at the laser beam irradiation portions 3b, 3b ... (Hatched for convenience).

Here, the refractive index of the excitation light non-irradiated portions 3a, 3a ... In the photochromic layer 3 is n ₁ , the refractive index of the irradiated portions 3b, 3b ... Is n ₂ , the thickness of the photochromic layer 3 is d, and the recording layer 4 described later is used. Letting λ be the wavelength of light used for recording / reproducing information to / from the information storage device, tracking control can be performed by the difference in the refractive indices n ₁ and n ₂ between the non-irradiated parts 3a and 3a ... and the irradiated parts 3b and 3b. In order to achieve this, it is preferable that λ / 16 ≦ | n ₁ −n ₂ | × d ≦ λ / 4, especially | n ₁ −n ₂ | × d≈λ / 8.

A recording layer 4 for performing optical recording is formed on the photochromic layer 3. The recording layer 4 is a rare earth transition metal alloy layer for recording / reproducing information based on the magneto-optical effect,
It is made of any material capable of optical recording, such as a phase change layer for recording / reproducing by phase change or a second photochromic layer made of a photochromic material different from the photochromic layer 3.

A protective layer 5 made of, for example, an ultraviolet curable resin is provided on the recording layer 4, and the photochromic layer 3 and the recording layer 4 are sealed by the base material 2 and the protective layer 5.

Further, although not shown, the optical head for recording / reproducing on / from the optical tape 1 is a recording / reproducing laser for irradiating the recording layer 4 with a laser beam through the substrate 2 and the photochromic layer 3.
It is provided with a photodetector and the like for receiving the laser light which has passed through the recording layer 4 and further passed through the protective layer 5. Furthermore, the optical head is provided with a format laser for forming a guide track pattern by exciting the photochromic layer 3 to change the refractive index, or is provided separately from the optical head. . The recording / reproducing laser generates laser light at a wavelength and intensity that does not excite the photochromic layer 3, while the format laser emits laser light at a wavelength and intensity that cannot perform recording on the recording layer 4. Has become.

In the above structure, after the optical tape 1 is manufactured, before the recording, first, the photochromic layer 3 is irradiated with the guide track pattern by the format laser to perform the formatting. Specifically, for example, as shown in FIG. 2, irradiation is performed at a predetermined interval in a direction inclined by a predetermined angle with respect to the longitudinal direction of the optical tape 1, and irradiation with a refractive index different from that of the non-irradiated parts 3a. Form parts 3b and 3b .... As a result, irradiated parts 3b, 3b ... or non-irradiated parts 3a
・ Any of 3a ... serves as a guide track. That is, the laser light transmitted through the non-irradiated portions 3a, 3a ... And the irradiated portions 3b, 3b.
A phase difference is generated between the laser light and the laser light passing through the laser beam, and a phase type guide track is formed.

The guide track may be formed in the entire area of the optical tape 1 in advance, or the above-mentioned format laser may be incorporated in the optical head so that the guide track is formed only in the area where information is recorded. May be. Further, when forming the guide track, index information such as a guide track number can be written in the photochromic layer 3 if necessary.

After forming the guide track on the photochromic layer 3, subsequently, the recording layer 4 is made to correspond to the guide track.
Then, information is recorded by the recording / reproducing laser. At this time, for example, non-irradiated portions 3a, 3a of the photochromic layer 3
If ... Is a guide track, the guide the light beam is currently trying to record in the recording layer 4 based on the difference in refractive index between the non-irradiated portions 3a, 3a ... And the irradiated portions 3b, 3b. Tracking control is performed so as to be located at the center of the non-irradiated portion 3a as a track, and information is recorded at a position corresponding to the non-irradiated portion 3a on the recording layer 4 accordingly.

Further, also during reproduction of information, tracking control is performed so that the light beam is located at the center of the guide track, as in recording.

As described above, in this embodiment, since the guide track pattern is recorded on the photochromic layer 3 provided separately from the recording layer 4, the recording density of information on the recording layer 4 does not decrease, and the recording is performed. Tracking control can be performed based on the laser beam for recording or reproducing on the layer 4.

In the above embodiment, the information is reproduced on the basis of the transmitted light transmitted through the optical tape 1, but the recording layer 4
A reflective layer may be provided between the protective layer 5 and the protective layer 5, and information may be reproduced based on the reflected light reflected by the reflected light.

〔The invention's effect〕

As described above, the optical tape according to the present invention includes the substrate, the photochromic layer for recording the guide track pattern, and the recording layer for optically recording information, and the photochromic layer is The thickness is d, the refractive index of the non-irradiated portion of the excitation light in the photochromic layer is n ₁ , the refractive index of the irradiated portion is n ₂ , and the wavelength of light used for recording / reproducing information on / from the recording layer is λ. Then, the configuration satisfies the formula of λ / 16 ≦ | n ₁ −n ₂ | × d ≦ λ / 4.

As a result, a photochromic layer is provided on the optical tape in addition to the recording layer, and the phase-type guide track pattern is recorded on this photochromic layer, so that information recording / reproduction can be performed on the optical tape based on accurate tracking control. Not only can it be performed smoothly, but in addition to a light source and a photodetector for recording / reproducing information, a light source for recording a guide track pattern on the photochromic layer is additionally required. Since the light source for recording the guide track pattern does not necessarily have to be provided in the optical head, the number of parts of the optical head can be reduced.

Also, since only the information is recorded on the recording layer,
The recording density of information in the recording layer does not decrease.

[Brief description of drawings]

1 and 2 show an embodiment of the present invention. FIG. 1 is a schematic vertical sectional view of an optical tape. FIG. 2 is a schematic plan view showing a guide track pattern. 1 is an optical tape, 2 is a base material, 3 is a photochromic layer, 4
Is a recording layer.

Claims (1)

(57) [Claims] 1. A substrate, a photochromic layer for recording a guide track pattern, and a recording layer for optically recording information, wherein the photochromic layer comprises:
Let the thickness be d, the refractive index of the non-irradiated portion of the photochromic layer with the excitation light is n ₁ , the refractive index of the irradiated portion is n ₂ ,
When the wavelength of light used for recording / reproducing information on / from the recording layer is λ, light satisfying the formula of λ / 16 ≦ | n ₁ −n ₂ | × d ≦ λ / 4 tape.