DE2349727A1 - SIGNAL RECORDING SYSTEM - Google Patents

Description

PATENT LAWYERS

. H.LEINWEBEU iipl.ing. H. ZIMMERMANN . A. Gt. v. WENGERSKY

8 Munich 2, Rosental 7,

2349727 TeL-A * .- Lelnpat Munich

Telephone (089) 2603989

Postal check account: Munich 220 45-804

_the October 3, 1973

Our sign

Wy / Va / Sd / POS-32073

MTSUSHITA ELECTRIC INDUSTRIAL CO., LTD. Osaka / Japan Signal recording system

The invention relates to optical recording systems for holographic recording of one-dimensional information that changes with time, for example Sound signals.

In holography, which lately as a promising one Methods for recording, reproducing and processing image information have been developed, are common two-dimensional diffraction grating is used as a recording medium, the phase and amplitude modulation of the grating pattern is recorded as a hologram. On the other hand it can be one-dimensional information that changes as a function of time change how sound signals are recorded and reproduced using a one-dimensional diffraction grating as a recording medium will.

A well-known signal recording system in which a one-dimensional Diffraction grating pattern with a depending on

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The time changing signal is amplitude modulated to provide carrier modulation on a photosensitive medium to record continuously, will be described in detail later in its individual parts with reference to the drawing.

In this known method for recording signals that change as a function of time, a inexpensive material such as vinyl tape can be used as the recording medium. Also can be duplication recording by means of thermal pressure transfer of the original tape image, which is necessary for mass production suitable is. However, there is neither a method for forming a carrier for the recording signal, i.e. the one-dimensional grating or the slit, nor a method for Construction of the optical system for modulating the carrier. Therefore, when the above technique was put into practice various difficulties. For example, when recording a sinusoidal signal component with a Frequency of 10 kHz as a signal to be recorded by feeding the film at a speed of 20 cm / sec. the length of the film, which corresponds to the period of the signal, 20 Micrometer. In such a case, the width of the slot may only be a fraction of 20 micrometers, for example approximately 5 microns. This means that in order to enable HiFi recording of the signal, it is necessary to have a look narrow slot essentially in contact with the film surface or to create a structure that allows it allows to achieve an equivalent effect. It is theoretically possible to use the above-mentioned method to obtain a multiplicity multiplex different signals simultaneously on the same recording medium. To that end, however, it is necessary to provide a corresponding number of light modulators and also a slot for each signal. This means an extraordinarily complicated construction

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in the overall structure and the need for special measures to solve the question of space.

The invention is intended to provide a signal recording system that the optical recording of signals changing with time on a cheap High fidelity recording medium, and further that

j recording of these signals in the multiplex is allowed and with which the; i above problems of known systems all solved

■ can. i

ι Further introductions, advantages and features of the invention

; result from the following description. In the drawing, the invention is illustrated by way of example, namely demonstrate

Fig. 1 is a schematic illustration to explain the

Implementation of the known method for recording ϊ signals that change as a function of time,

'Fig. 2 is a schematic illustration to explain the : Invention underlying principles,:

J FIGS. 3, 4 and 5 representations to explain the manufacture I of the holographic> used according to the invention Slot and -

6 shows a schematic representation of an embodiment ':. of the SignälaufDrawing system according to the invention.

I Fig. 1 shows a known signal recording system • with a coherent light source 1, such as a laser, with a ; Collimator 2,3 for the formation of a predetermined parallel -

Light beam, with a beam splitter 4 and with a light! modulator 5 for modulating the coherent light beam ■ "-: ■ · ^;

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with a signal I (t) supplied by a source 6 of signals changing as a function of time. The system furthermore has a reflective mirror 7 which is set so that the light beam reflected by it is superimposed with a reference light beam emanating from the beam splitter at a predetermined angle with respect to the reference light beam a tape-like photosensitive recording medium 9 falls. Further, a slit 8 of one width is provided.

The grating pattern modulated with the signal I (t) is recorded essentially as a one-dimensional diffraction grating continuously through the slit 8 on the recording medium 9, the recording medium or the film being fed at a constant speed V (t). This means that the signal I (t) is continuously recorded as it is transformed in accordance with the diffraction efficiency of the one-dimensional diffraction grating. To reproduce the signal, the tape with the one recorded on it is used. Signal, while moving at constant speed, irradiated with coherent light,; so that part of the diffracted light obtained through a slit placed very close to the film is photoelectrically; is converted. ^l

... Fig. 2 shows the basic construction according to. ! Invention. It has a laser light source 12, a beam; splitter 13, a collimator 14 and a reflective mirror 15, ■ which freely change the direction of the incident light beam ^! can. From the iteflex mirror 15 is a parallel coherent; The reflected light beam 16 which irradiates a holographic slit 10 made by a method described later to reproduce an image on a photosensitive recording medium. Meanwhile, the other · ■ is emanating from the beam splitter 13 light beam when a; Light modulator 17 happens with one of a signal source 18. . ■ - 5 - ^:

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Supplied signal amplitude modulated, whereupon the moduljarte light beam through a collimator 19 to a parallel
Light beam 20 is aligned, the holographic
Illuminates slot 10 or the hologram. The angles of incidence
of the light beams 16 and 20 impinging on the hologram
are aligned so that the resultant of HoIo- ■ program or the holographic reproduced slot j two slit images overlap and an interference pattern 11 in the form of 'a one-dimensional diffraction grating is formed. In the figure j is that part of the diffraction light originating from the hologram which j does not take part in the formation of the interference image 11, '. not shown. During the production of the holographic slit 10, it should not hit the recording surface _; fall. Furthermore, the not shown is photosensitive
Recording medium arranged so that the interference pattern 11
is recorded on it.

.. On the basis of Figures 3 and 4 in the preparation of the is _now: Figure 2 illustrated holographic slot 10. Fig. 3 shows coherent parallel light rays 21 and 22,
that of a ray of light of the same coherent light- | source, such as a laser, have been split off. The light- ; beam 21 is collected by a converging lens 23 to a; mechanical slot 24 to illuminate. That from slot 24
incoming diffracted light is on a photosensitive, at-. for example photoresist medium 25, in overlap with the ^! Reference light beam 22 recorded as a hologram. This is
the aforementioned holographic slot. '

Fig. 4 shows an optical system for performing aj Multiple recording based on the above recording process I. • follows. The structure according to FIG. 4 differs from that according to j Fig. 3 in that a prism 26 is provided here.

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The other components are provided with the same reference numerals as in FIG. 3, but provided with an apostrophe. At . In the system of FIG. 4, the angle of incidence of the reference light beam 22 'is different from that in FIG. 3. The multiple recording' tion is effected so that two by irradiating the hologram recorded in this way with two parallel coherent light beams from two different directions overlap slit images, one substantially one-dimensional diffraction grating is created. The vertical angle of the prism 26 in the arrangement of FIG. 4 is taken into account the pitch of the above-mentioned one-dimensional diffraction grating is calculated.

If the multiple recording of the hologram of the same slot using successively different carrier frequencies and carried out η times while continuously replacing the prism 26 with prisms of different vertical angles has been, it is possible by modulating (n - 1) of η slit images reproduced from the hologram and using the remaining slit image as a reference wave to achieve the simultaneous recording of at most (n-1) channel signals.

Fig. 5 shows an optical system for recording a hologram which is suitable for the simultaneous reproduction of η slit images. The figure shows reference light sources 27-j, 27 ₂ , 27 _n , of which parallel light beams strike the hologram surface 34 at different angles of incidence. A collimator lens 28 turns the light waves coming from the reference light sources into parallel light beams. An illuminating light beam 30 coherent with the light beam from any reference light source is collected by a converging lens 31 and passes through a prism 32 and a slit 33. The diffraction light from this slit is recorded on the hologram surface 34 in an overlap with the reference light beam 29. Multiple recording is achieved by continuously switching the reference light sources each time the prism is exchanged

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caused by a new ".

Fig. 6 shows a specific construction of the optical system for multi-channel signal recording below. Use of a hologram recorded in the above manner. Beam splitter 35i to 35 _n and _η reflecting mirror 36 ^ to 3β are provided by the corresponding number of mutually coherent; to generate light beams made incident on a hologram 37. Mehrfachaufζeichnungs. Of the slit images reproduced from the hologram, (n-1) images are amplitude-modulated by corresponding light modulators 38o, 38z, ... 38, which are individually actuated _{by separate signal sources 392 »39z, ... 39 n.} These amplitude-modulated slit images are recorded on a photosensitive recording medium 40 each in the form of a one-dimensional diffraction grating with the image as a reference wave which has been reproduced due to the light beam which has not passed through a modulator. A mask 41 for retaining unnecessary diffraction elements from the hologram 37 and collimators 42j to 42 ″ for expanding the respective light beams to a sufficient extent with respect to the surface of the hologram 37 are also provided.

When recording a number of yourself depending signals changing over time with the system of the above construction it is possible to have a number of light and very narrow Schliijz obtain images that coherently overlap each other. It is thus easily possible to generate multi-channel signals using a ' to record the split-off light rays as reference light at the same time and to reproduce these signals separately. On the other hand can be used in the known system shown in Fig. 1 in which the slot is in direct contact with the recording medium stands, high-frequency signal components are not recorded be, while there is a construction in the sicii a Number of slit images via lenses and mirrors on the same

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Overlay the recording area, only a few channels at most can be recorded at the same time. According to the invention Furthermore, the slit images are not due to the focusing effect of the lenses, but rather due to the lens effect of the hologram so that the slot length is not limited and it is possible to make a long slot as compared to those in systems where the images are focused through lenses. Furthermore, when recording multi-channel signals, As described above, it is possible to reduce crosstalk among the individual signals and to reduce distortion of the outputs due to non-linear characteristics of the recording material by adjusting the intensity of the Reference light to reduce the light intensity of the other signals to several times to tens of times.

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Claims (2)

- 9 claims:. (\ J Optical signal recording system for the holographic recording of one-dimensional information which changes as a function of time, such as sound signals, by superimposing a reference light beam with a light coherent therewith, which is modulated with a signal which changes as a function of time, on a recording medium characterized in that a diffracted coherent light (21, 21 ') passing through a mechanical slit (24, 24') is obtained by superimposing a non-diffracted coherent light (22, 22 ') on a recording medium (25, 25') holographic slit (10) for recording the modulated light obtained by modulating coherent light with a signal changing as a function of time on an advancing recording medium (e.g. 40) through this slit (10) opposite this recording medium. 2. An optical signal recording system for recording one-dimensional information which changes with time, characterized by the use of a coherent light (30) on a recording medium which passes by repeatedly recording a plurality of slit images of a mechanical slit (33) held under different phase conditions coherent relationship to corresponding, non-diffracted, in.vifferent, in each case the phase conditions corresponding angles of incidence incident coherent light beams (29) obtained holographic slit (34, 37) for recording a plurality of modulated light beams, which by corresponding signals changing as a function of time are modulated, on an advancing recording medium (40) in coherent relation to ■ a reference light beam which is a dec 409815/0899. - 10 - - ίο - coherent light rays with different angles of incidence used at the time of making the holographic slit corresponds to the advancing recording medium (40) is arranged opposite.