KR20030019692A - Method of making multi-beams - Google Patents

Abstract

PURPOSE: A multiple light forming method is provided to increase the reproduction speed of a disc by forming multiple beams by using a beam splitter formed with at least one or more slits. CONSTITUTION: A multiple light forming method includes the steps of forming multiple light by passing light projected from a light source via a beam splitter(110) having at least one or more slits(115), and making the light split into multiple light beams(I-III) in parallel to each other by passing through a collimator lens(118).

Description

Method of making multi-beams

The present invention relates to a multiple light forming method using slits.

An optical pickup apparatus is an apparatus that records by recording light onto a recording surface of a recording medium such as an optical disc, or reproduces information recorded on the recording medium. In general, the optical pickup device, as shown in FIG. 1, has passed through a light source 10, an optical path converter 15 for converting a path of light emitted from the light source 10, and the optical path converter 15. An objective lens 45 for focusing light onto the optical disc 50 and a photodetector 60 reflected from the optical disc 50 to receive light through the objective lens 45 and the optical path converter 15. It is configured to include. In addition, the collimating lens 40, which makes the light passing through the optical path converter 15 parallel, and the light reflected by the optical disc 50 and returned, pass through the coma aberration generated through the optical path converter 15. A condenser lens 55 may be further provided to remove and converge the photodetector 60.

In the optical pickup device as described above, the light reflected from the optical disk 50 is returned by the photodetector 60 to be converted into video / audio signals and electrical signals of tracking servos and focusing servos and recorded on the optical disks. Read the information. However, in recent years, a faster playback speed is required, and efforts have been made to increase the rotational speed of an optical disc in accordance with such a demand. However, due to the mechanical limitation of the rotational speed of the step motor for rotating the optical disk, there is no choice but to limit the high speed response force. As another method, a method of increasing the reproduction speed has been developed by making light from a light source into multiple lights so that a plurality of tracks formed on a recording surface of an optical disc can be reproduced simultaneously.

Conventionally, as a method of forming multiple lights, a method of making light emitted from the light source 10 into multiple lights using the hologram 13 as shown in FIG. 2 has been proposed. The hologram 13 divides incident light into 0th order light, ± 1st order light, ± 2nd order light. Here, the interval between the multiple lights and the light intensity are adjusted by adjusting the depth w and the pitch p of the unevenness 13a formed on the incident surface of the hologram 13. However, the hologram is difficult to manufacture and the manufacturing cost is expensive.

The present invention has been made to solve the above problems, an object of the present invention is to provide a method for forming multiple light using a slit that is easy to manufacture.

1 is a schematic layout view of a general optical pickup device.

2 is a view showing a hologram device for forming a conventional multiple light.

3A is a view schematically illustrating a multiple light forming unit in which a slit is used in the multiple light forming method according to the present invention.

Figure 3b is a view showing a slit used in the multiple light forming method according to the present invention.

4 is a diagram schematically illustrating a multiple light forming unit in which a double slit is formed used in the multiple light forming method according to the present invention.

5 is a configuration diagram illustrating a multiple light forming method according to another exemplary embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

1 ... light source 110,120 ...

115,125,126 ... slit b ... width of slit

L ... longitudinal length of slit

In order to achieve the above object, the multiple light forming method according to the present invention comprises the step of passing the light emitted from the light source through a light splitter having at least one or more slits to produce multiple light.

In addition, the step of making the light separated into the multiple light to pass through the collimating lens to make a parallel; characterized in that it further comprises.

In addition, when one slit is provided, the interval between the multiple lights is adjusted by adjusting the width of the slit.

In addition, by adjusting at least one of the width and the horizontal length of the slit is characterized in that for adjusting the amount of light of the multiple light.

In addition, when two or more slits are provided, the interval between the adjacent slits may be adjusted to adjust the interval between the multiple lights.

Hereinafter, a method of forming multiple light according to the present invention will be described in detail with reference to the accompanying drawings.

3A and 3B, the multiple light forming method according to the present invention passes the light S emitted from the light source 1 through the light splitters 110 and 120 having at least one or more slits. It is characterized by making.

In the present invention, the method of forming multiple light is implemented by the principle of diffraction and interference. Thus, the light divided into the multiple light can be made into parallel light by passing through the collimating lens 118. For example, when one slit 115 is provided as shown in FIG. 3A, the light passing through the slit 115 is divided into multiple light (I) (II) (III), and the collimation is performed. Through the lens 118, it becomes parallel light. For convenience, only the first, second and third light (I) (II) (III) are shown. The interval between these multiple lights is represented by d.

Meanwhile, when the width of the slit 115 is b and the horizontal length is L, the distance d between the light amount I and the multiple light can be adjusted by the following conditional expression. Here, C represents an arbitrary constant, and when θ is the angle at which the light passing through the slit 115 is inclined with respect to the central axis, β is the propagation constant k. to be.

In addition, by adjusting the width (b) of the slit 115 according to the following equation (2) it is possible to adjust the interval (d) between the multiple light (I) (II) (III).

Where n is an integer and? Represents the wavelength of the light beam. As the width b of the slit 115 decreases, the distance d between the multiple lights increases.

In addition, as shown in FIG. 4, a light splitter 120 having first and second slits 125 and 126 may be provided. The light passing through the first and second slits 125 and 126 is multi-lighted by interference. Here, when the widths of the first and second slits 125 and 126 are referred to as b, and the interval between the slits is h, the width b of the slits may be adjusted to adjust the amount of light of the multiple lights. . In other words, In this relation, if b is infinity, the Bessel function If the b value becomes smaller Since the value of is also small, the amount of light can be adjusted by adjusting the b value by Equation (1).

In addition, when the distance from the center to where the multiple light beam appears after passing through the slit is y, and the distance from the light splitter 120 to the place where the light beam is formed is x, multiple light appears in the following cycle.

Is the wavelength of incident light and n is an integer. The interval between the multiple lights can be adjusted by adjusting h and x according to the above equation.

In the same principle, as shown in FIG. 5, the light from the light source may be incident on the collimating lens 118 ′ to make parallel light, and then pass through the slit 115 ′ to form multiple light. The multiple light thus formed is incident on the objective lens 45 'and condensed on the disc 50 so that a plurality of tracks can be read.

In addition, the number of slits can be configured in plurality. The general equation of the amount of change in multiple light according to the number of slits is as follows.

here, And N represent the number of slits, respectively. In this case, the light amount of the multiple light may be adjusted by adjusting the width b of the slit, and the interval between the multiple lights may be adjusted by adjusting h.

By adjusting the distance between the amount of light and the multiple light as described above, it is possible to control the light spot to be properly formed on the track of the disc. On the other hand, when forming a plurality of light using a plurality of slits in this way, there is an advantage that the light quantity distribution of the multiple light can be made substantially uniform than when using a single slit.

As described above, the multiple light forming method according to the present invention can increase the reproduction speed of a disc by forming multiple light using a light splitter having at least one or more slits that are easy to manufacture.

Claims (7)

Passing the light emitted from the light source through a light splitter having at least one or more slits to produce multiple lights. The method of claim 1, And making parallel the light separated by the multiple light through a collimating lens. The method according to claim 1 or 2, If one slit is provided, the method of forming multiple light, characterized in that for controlling the interval between the multiple light by adjusting the width of the slit. The method of claim 3, wherein And adjusting the amount of light of the multiple light by adjusting at least one of the width and the horizontal length of the slit. The method according to claim 1 or 2, When more than one slit is provided, the method of forming multiple lights, characterized in that for controlling the interval between the multiple light by adjusting the distance between neighboring slits. The method of claim 5, And adjusting the amount of light of the multiple light by adjusting at least one of the width and the horizontal length of the slit. The method of claim 1, wherein the light emitted from the light source is passed through the collimating lens to be parallel and then passed through the light splitter.