DE2455207A1 - Improvement of reproduction efficiency in uni-dimensional hologrammes - uses process of multiple deposition on thermoplastic base material - Google Patents

Abstract

A system for improvement of the efficiency of the reconstruction of a unidimensional hologramme is particularly in the sequential data storage process, whereby the unidimensional hologramme is drawn up on a thermoplastic storage medium as a self overlying surface relief, has the surface relief of the thermoplastic material amplified by means of at least one, preferably more than one additional deposition onto the surface of the thermoplastic material, the hologram thus produced is free from increased noise due to this multiple deposition method.

Description

Method for improving the efficiency of the reconstruction one-dimensional holograms The present invention relates to a method for Improvement of the efficiency in the reconstruction of one-dimensional holograms, especially in sequential data storage, the one-dimensional holograms on a thermoplastic storage medium as superimposed surface reliefs are recorded.

In the main patent. ... ... (patent application P 23 35 305.1) is an arrangement for the generation of extremely narrow one-dimensional holograms, especially for sequential ones Data storage on a moving storage medium described. The ones to be saved sequential data are generally in the form of electrical signals that be modulated onto a laser beam by pulse modulation.

When playing back holographically stored data, the storage medium moved past a reference light source, the reconstructed image points wander past a detector and cause an alternating current in it that corresponds to the corresponds to the original signal.

A thermoplastic material is particularly suitable as a storage medium, which is already known as a hologram carrier (see the book by Kiemle / Röß ~ Introduction to the technology of holography ", Akad. Verlagsgesellschaft Frankfurt / I4ain, -1969, Page 217). The thermoplastic material is a plastic that goes along with a transparent photoconductive material is applied to a support. To the Sensitization is carried out on the outer surface of the thermoplastic material a corona charge gives an evenly distributed, positive or negative charge.

When writing the one-dimensional holograms, the photoconductor It is conductive where light strikes, but remains insulating in unexposed areas. This creates a charge profile that corresponds to the light interference pattern.

For development, the plastic is heated to the softening point. Places with positive charges become negative from those opposite Charges are attracted and vice versa, whereby one of the charge distribution and thus the exposure forms a surface relief corresponding to the exposure, which fixes by cooling will.

To now the storage capacity of a storage tape made of thermoplastic To increase material, it is necessary to use a variety of one-dimensional holograms to overlay. However, the more holograms that are superimposed, the smaller the amount Efficiency in the reconstruction of an individual particular one-dimensional Holograms.

When N individual holograms of the object waves On are exposed over one another with the reference waves Rn, the total exposure is proportional to Since I must not overdrive the linear part of the characteristic curve t 1 of the recording material, the individual reference waves and object waves must be selected to be so small that at least is satisfied. Then, however, the portions Rn On responsible for the image reconstruction # n * are also small, namely, the smaller the larger N is.

The present invention has set itself the task of a method to improve the efficiency in the reconstruction of one-dimensional holograms on a thermoplastic storage medium to be indicated as overlapping Surface reliefs are recorded.

To solve this problem, it is proposed that the surface reliefs of the thermoplastic material by at least one, preferably several, recharges of the thermoplastic material are reinforced.

Due to the small proportions of Rn On, the thermoplastic surface is initially only weakly modulated. The main part of the linear characteristic is of the constant equal term uselessly slagged. The possibility of reinforcement is based on this: the - albeit weak - surface relief controls a subsequent loading according to its height structure and is thus reinforced by heating when it is developed again. Constant proportions of the modulation (1) remain unaffected, of course. The initially small modulations in the hologram can in principle be amplified in this way until they - now without the common terms (1) - control the entire linear part of the characteristic. The useless constant components are thus suppressed in favor of the useful components.

So it has been found that this translates into a thermoplastic material formed surface relief in which the holographic information is contained are, by subsequent loading, i.e. repeated evenly applying of Surface charges, can be amplified without the relative noise component increasing. A weakly developed surface relief can therefore be caused by these recharges are greatly reinforced that a high degree of efficiency in the subsequent reconstruction the image brightness of the reconstructed image points is achieved with equally good Signal / noise ratio as it existed before the reload.

After the various charges have been applied, the thermoplastic The material is heated so that surface reliefs are created in accordance with the charge distribution can amplify. After subsequent cooling and fixation of the once reinforced Surface reliefs can be removed by recharging and then heating and cooling, a further strengthening takes place. This procedure can take so long be repeated until sufficient surface reliefs are available that ensure a particularly good reconstruction of the one-dimensional holograms.

1 claim

Claims (1)

P a t e n t a n s p r u c h Process to improve efficiency in the reconstruction of one-dimensional holograms, especially in the sequential one Data storage, with the one-dimensional holograms on a thermoplastic Storage medium are recorded as superimposed surface reliefs, according to Patent. ... ... (patent registration P 23 35 305.1), therefore not indicated that the surface reliefs of the thermoplastic material by at least one, preferably several, recharges of the thermoplastic material are reinforced.