KR20080064357A - Method of angular multiplexing in holographic information recording/reproducing apparatus - Google Patents

Abstract

An angular multiplexing method of in a holographic information recording/reproducing apparatus is provided to limit a recording angular range of a page or to set a scanning angular range of a reference light, considering a tilt of the reference light scanning direction so as to obtain compatibility between holographic information recording/reproducing apparatuses. A scanning angular range of a reference light includes a range of an angle at which a page is recorded in the holographic recording medium and a tilt range of a reference light scanning direction of the holographic recording medium. When the page recording angle is in a range of A°<=Thetap<=B°, and the tilt angle of the reference light scanning direction is in a range of -C°<=Thetat<=D°, the scanning angle of the reference light is in a range of (A+C+D)°<=Thetas<=(B+C+D)°, where A~D is the real numbers bigger than 0, and Thetap, Thetat, and Thetas are angles on a normal(N) of the holographic recording medium.

Description

Method of angular multiplexing in holographic information recording / reproducing apparatus

1 schematically shows the principle of recording information in a holographic information recording / reproducing apparatus.

Fig. 2 schematically shows the principle of reproducing information in the holographic information recording / reproducing apparatus.

Fig. 3 schematically shows the angular range in which reference light is scanned on the holographic recording medium for angular multiplexing.

4 to 6 show a change in the angle of the reference light when tilt is present in the holographic recording medium.

※ Explanation of code about main part of drawing ※

11 ..... Spatial Light Modulator 12 ..... Beam Splitter

13 ..... condenser lens 14 ..... collimating lens

15..Objective lens 16..Aperture

17 ..... Image sensor

The present invention relates to an angle multiplexing method of a holographic information recording / reproducing apparatus, and more particularly to an angle multiplexing method of determining a scanning angle of a reference light in consideration of the tilt of a holographic recording medium in a holographic information recording / reproducing apparatus. It is about.

The hologram technology is a technology that can reproduce an optical signal as it is, and refers to a technology that can reproduce a signal as a stereoscopic image by recording an interference fringe between the signal light containing the signal and the reference light straight from the signal light at different angles. Recently, optical storage technology for recording / reproducing digital data using the hologram principle has attracted attention. According to the holographic information recording / reproducing technology, it is possible to implement a page-by-page recording / reproduction in which a plurality of digital data are recorded / reproduced in the form of a two-dimensional image at once, thereby enabling an ultra-fast recording / reproducing system. In addition, according to the storage method using the hologram, even information stored spatially overlapped by an appropriate multiplexing technique can be read separately from each other. Therefore, it is possible to record and reproduce data information of several pages in the same area in a superimposed manner.

1 schematically illustrates the principle of a holographic information recording / reproducing apparatus for recording information using hologram technology. Referring to FIG. 1, the signal light S modulated to have a two-dimensional signal pattern by the spatial light modulator 11 is collected by the condenser lens 13 and then passes through the aperture 16. The diaphragm 16 serves to remove ambient light so that only the desired signal light can enter the holographic recording medium M. FIG. Then, it enters into the holographic recording medium M through the collimating lens 14 and the objective lens 15. On the other hand, the reference light L is incident on the holographic recording medium M obliquely at a predetermined angle through a separate reference light providing unit (not shown). At this time, the interference pattern generated by the interference between the reference light L and the signal light S is recorded on the holographic recording medium M. FIG.

Fig. 2 schematically shows the principle of a holographic information recording / reproducing apparatus for reproducing information recorded using hologram technology. Referring to Fig. 2, when reproducing information, the holographic recording medium M is irradiated through a reference light providing unit (not shown) with a reference light L having the same wavelength as that used for recording. Here, in order to unify the transmitting part and the receiving part of the signal light and minimize the influence of the lens aberration, as shown in Fig. 2, the reference light L at the time of reproduction is reversed from that at the time of recording. This regeneration method is called a conjugation regeneration method. However, the incident angle of the reference light L at the time of reproduction should be the same as at the time of recording. Then, as the reference light L is diffracted in the holographic recording medium M, a signal light S having a two-dimensional signal pattern containing original data information is generated. The reproduced signal light S passes through the lenses 15, 14, 13 and the aperture 16, and is then reflected by the beam splitter 12 to enter the image sensor 17. Image sensor 17 may use, for example, an array of multiple photodetectors or a two-dimensional photodetector such as a charge coupled device (CCD).

In such a holographic information recording / reproducing apparatus, in order to reproduce the information stored in the holographic recording medium M, the angles of the reference light at the time of recording and at the time of reproduction must exactly match. When the incident angle of the reference light at the time of reproduction is gradually changed from the incident angle of the reference light at the time of recording, the intensity of the signal light to be reproduced is gradually weakened as a whole, and eventually the angle at which the intensity of the signal light becomes zero appears. Therefore, it is possible to record and reproduce data information of several pages superimposed while varying the incident angle of the reference light at the same position. This is called angular multiplexing. In the holographic recording medium M, a two-dimensional area serving as a recording / reproducing unit is called a book.

According to this angular multiplexing method, as shown in FIG. 3, the reference light L can be scanned at various angles (-θ1 to θ2) at the same position of the holographic recording medium M at the time of recording and reproduction. Configure the provision. In this angular multiplexing method, in order to maintain recording / playback compatibility between the holographic information recording / reproducing apparatuses, an angle range in which a page is recorded on the holographic recording medium, a scanning angle range of reference light, an angle difference between pages, and within a book Specifications, such as the maximum number of pages, are defined and must be stored on the recording medium.

By the way, the holographic recording medium M inevitably has a tilt. In particular, an error occurs in the angle of the page recorded on the holographic recording medium M when the tilt occurs in the scanning direction of the reference light. Therefore, when determining the scanning angle range of the reference light, it may not be possible to reproduce some pages recorded on the holographic recording medium M without considering the tilt in the scanning direction. Until now, however, the scanning angle range of the reference light has been defined as the angle range in which pages are recorded on the holographic recording medium without considering the tilt.

Accordingly, an object of the present invention is to provide an angle multiplexing method for limiting the recording angle range of a page or setting the scanning angle range of a reference light in consideration of the tilt of the reference light scanning direction of the holographic recording medium in the holographic information recording / reproducing apparatus. It is.

In the angle multiplexing method of the holographic information recording / reproducing apparatus according to one type of the present invention for achieving the above object, the scanning angle range of the reference light has a range of angles at which pages are recorded on the holographic recording medium and holographic recording. And a tilt range in the reference light scanning direction of the medium.

For example, the angle θp at which a page is recorded on the holographic recording medium is in the range of -A ° ≦ θp ≦ B °, and the tilt angle θt in the reference light scanning direction of the holographic recording medium is −C ° ≦ θt Assuming that the reference angle is within a range of ≦ D °, the scanning angle θs of the reference light may be within a range of − (A + C + D) ° ≦ θs ≦ (B + C + D) °, where A to D Is a real number greater than 0, and the angles θp, θt, and θs are based on the normal of the holographic recording medium.

In the angular multiplexing method of the holographic information recording / reproducing apparatus according to another type of the present invention, the range of the angle at which the page is actually recorded on the holographic recording medium is from the scanning angle range of the reference light to the reference light scanning direction of the holographic recording medium. It is characterized by being limited by the tilt range of.

For example, the scanning angle θs of the reference light is in the range of -A ° ≤ θs ≤ B °, and the tilt angle θt in the reference light scanning direction of the holographic recording medium is in the range of -C ° ≤ θt ≤ D °. Assume that the angle θp at which the page is actually recorded on the holographic recording medium may be in the range of − (ACD) ° ≦ θp ≦ (BCD) °.

Hereinafter, an angle multiplexing method of a holographic information recording / reproducing apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As described above, when the tilt occurs in the scanning direction of the reference light on the holographic recording medium, the actual incident angle of the reference light incident on the holographic recording medium is different from the intended incidence angle by the tilt angle. Thus, the angle at which the page is actually recorded on the holographic recording medium is also changed by the tilt angle. In addition, the range of the angle at which the reference light is scanned in the holographic recording medium during recording and playback also depends on the degree of tilt.

4 shows the change in the angle of the reference light when there is a tilt in the scanning direction of the reference light in the holographic recording medium M. As shown in FIG. In the absence of tilt, it is assumed that the angular range of the reference light scanned on the holographic recording medium M is within -A ° to + B °. Here, the letters A and B are real numbers greater than zero. Further, the angle is defined with reference to the normal line N perpendicular to the surface of the holographic recording medium M. FIG. If, as shown in Fig. 4, a tilt of + D ° occurs in the holographic recording medium M (where D is a real number larger than 0), the reference light incident on the holographic recording medium M The actual scanning angle (θs) is-(AD) ° ≤ θs ≤ + (B + D) ° due to tilt. In this case, if the angle range in which the page is recorded on the holographic recording medium M is equal to the scanning angle range of the reference light, the angle θp at which the page is actually recorded is also-(AD) ° ≤ θp as in the case of the reference light. ≤ + (B + D) °.

Then, in the case where information is reproduced from the holographic recording medium M on which the page is recorded in the state where the tilt occurs as shown in FIG. 4, if the tilt does not occur in the holographic recording medium M, it will be as shown in FIG. . As shown in Fig. 5, the angular range in which the page is actually recorded in the holographic recording medium M is-(A-D) ° ≤ θp≤ + (B + D) °. By the way, the reference light indicated by the dotted line is scanned in the range of -A ° ≤ θs ≤ + B °. As a result, the left portion of the normal line N in FIG. 5 has no problem in reproduction, but the page recorded in the range of + B ° to + (B + D) ° cannot be reproduced in the right portion of the normal line N. FIG.

Therefore, in order to be able to reproduce all the pages recorded on the holographic recording medium M, the scanning range of the reference light at the time of reproduction is increased to + (B + D) °, or pages are recorded before recording the page in FIG. The angle at which is recorded shall be limited to + (BD) °.

If the tilt of the -C ° (where C is a real number greater than 0) occurs in the scanning direction of the reference light, the problem becomes even greater if the holographic recording medium M is reproduced as shown in FIG. In this case, as shown in Fig. 6, since the holographic recording medium M is rotated by C ° in the clockwise direction, the page is based on the normal line N of the holographic recording medium M when there is no tilt. The actual recorded angle range is changed to-(ACD) ° ≤ θp≤ + (B + C + D) °. However, since the reference light is scanned in the range of -A ° ≤ θs ≤ + B °, it is possible to reproduce a page recorded in the range of + B ° to + (B + C + D) ° in the right part of the normal line N. There will be no.

Therefore, in order to be able to reproduce all the pages recorded on the holographic recording medium M, the scanning range of the reference light at the time of reproduction is increased to + (B + C + D) ° or when the pages are recorded in FIG. The angle at which the page is written should be limited to + (BCD) ° in advance.

If a tilt of -C ° occurs when the page is recorded on the holographic recording medium M, and a tilt of + D ° occurs when the page is played back from the holographic recording medium M, the normal N There is no problem with playback on the right side, but the same problem will occur on the left side of the normal (N). In other words, a page recorded in the range of-(A + C + D) ° to -A ° in the left part of the normal line N will not be reproduced. In this case, to be able to reproduce all the pages recorded on the holographic recording medium M, increase the scanning range of the reference light at the time of reproduction to-(A + C + D) °, or when the pages are recorded, The angle recorded should be limited to-(ACD) °.

Therefore, when both the recording of the page on the holographic recording medium M and the tilt of the reproduction are taken into consideration, the scanning range of the reference light at the time of reproduction is greatly increased as described above, or the page is recorded at the time of recording of the page. The angular range that is required should be greatly reduced.

For example, the angle θp at which the page is written on the holographic recording medium M is in the range of -A ° ≦ θp ≦ B °, and the tilt angle θt in the reference light scanning direction of the holographic recording medium M Is within the range of -C ° ≤ θ t ≤ D °, the scanning angle θ s of the reference light during reproduction is increased in the range of-(A + C + D) ° ≤ θ s ≤ (B + C + D) ° It is preferable to make it. Here, A to D are real numbers larger than 0, and angles θp, θt, and θs are based on the normal of the holographic recording medium M when there is no tilt.

Or, for example, the scanning angle [theta] s of the reference light at the time of reproduction is in the range of -A ° &amp;le; When it is in the range of θt ≦ D °, it is also possible to limit the angle θp at which a page is actually recorded on the holographic recording medium M to a range of-(ACD) ° ≦ θp ≦ (BCD) °. .

In order to increase the scanning angle range of the reference light at the time of reproduction or to limit the recording angle range of the page so as to meet the above conditions, the page recorded on the holographic recording medium M is recorded even if a tilt occurs during recording and reproduction. All can be played.

In numerical terms, when the angle difference between the pages is 0.2 ° and the maximum number of multiplexes is 200, the recording angle range of the page is determined based on the normal of the holographic recording medium, for example, without considering the tilt. Can be set from 20 ° to + 19.8 °. Then 200 pages can be recorded at intervals of 0.2 degrees. For this purpose, the reference light may be set to be scanned within a range of -20 ° to + 19.8 °.

 However, since some degree of tilt exists in the holographic recording medium, this should be taken into account. If the tilt during recording is -1 ° and the tilt during playback is + 1 °, the page is actually recorded in the range of -21 ° to + 18.8 ° during recording, and -22 due to + 1 ° during playback. Since it can be played back within the range of ° to + 17.8 °, part of the recorded page cannot be played back. Conversely, if the tilt at recording is + 1 ° and the tilt at playback is -1 °, the page is actually recorded in the range of -19 ° to + 20.8 ° at the time of recording, and at -1 ° during playback Since it can be played back within the range of -18 ° to + 21.8 °, part of the recorded page cannot be played back.

Therefore, in order to ensure compatibility between individual holographic information recording / reproducing apparatuses, in the above-described example, it is preferable to set the scanning angle range of the reference light to -22 ° to + 21.8 °. Alternatively, it is preferable to limit the angle range in which the page is actually recorded at the time of recording the page to -18 ° to + 17.8 °.

As described above, according to the present invention, individual holographic information recording / reproducing apparatuses by limiting the recording angle range of the page or setting the scanning angle range of the reference light in consideration of the tilt of the reference light scanning direction of the holographic recording medium. Compatibility can be guaranteed between them.

To date, some exemplary embodiments have been described and illustrated in the accompanying drawings in order to facilitate understanding of the present invention. However, it should be understood that these embodiments are merely illustrative of the invention and do not limit it. It is to be understood that the invention is not limited to the limited process description shown and described, as various other modifications may occur to those skilled in the art.

Claims (4)

In the angle multiplexing method of the holographic information recording / reproducing apparatus, And the scanning angle range of the reference light includes a range of angles at which pages are recorded on the holographic recording medium and a tilt range in the scanning direction of the reference light of the holographic recording medium. The method of claim 1, The angle θp at which the page is written on the holographic recording medium is in the range of -A ° ≤ θp ≤ B °, and the tilt angle θt in the reference light scanning direction of the holographic recording medium is -C ° ≤ θt ≤ D Given that it is in the range of °, the scanning angle θ s of the reference light is in the range of − (A + C + D) ° ≦ θs ≦ (B + C + D) °, where A to D are greater than zero. A real number, wherein angles θp, θt, and θs are based on the normal of the holographic recording medium. In the angle multiplexing method of the holographic information recording / reproducing apparatus, A range of angles at which pages are actually recorded on the holographic recording medium is limited by a tilt range from the scanning angle range of the reference light to the reference light scanning direction of the holographic recording medium. The method of claim 3, wherein The scanning angle θs of the reference light is in the range of -A ° ≤ θs ≤ B °, and the tilt angle θt in the reference light scanning direction of the holographic recording medium is in the range of -C ° ≤ θt ≤ D °. When the angle θp at which the page is actually recorded on the holographic recording medium is in the range of-(ACD) ° ≤ θp ≤ (BCD) °, where A to D are real numbers larger than 0, and angles θp, θt, [theta] s is based on the normal of the holographic recording medium.

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