Thomas Rölle scite author profile

Optical data storage has had a major impact on daily life since its introduction to the market in 1982. Compact discs (CDs), digital versatile discs (DVDs), and Blu-ray discs (BDs) are universal data-storage formats with the advantage that the reading and writing of the digital data does not require contact and is therefore wear-free. These formats allow convenient and fast data access, high transfer rates, and electricity-free data storage with low overall archiving costs. The driving force for development in this area is the constant need for increased data-storage capacity and transfer rate. The use of holographic principles for optical data storage is an elegant way to increase the storage capacity and the transfer rate, because by this technique the data can be stored in the volume of the storage material and, moreover, it can be optically processed in parallel. This Review describes the fundamental requirements for holographic data-storage materials and compares the general concepts for the materials used. An overview of the performance of current read-write devices shows how far holographic data storage has already been developed.

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The Chemistry and Physics of Bayfol® HX Film Holographic Photopolymer

Bruder

2017

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Holographic photopolymers are a new technology to create passive diffractive optical elements by a pure laser interference recording. In this review, we explain the chemistry concepts of light harvesting in an interference pattern and the subsequent grating formation as chemical response. Using the example of the newly developed Bayfol ® HX film we discuss the reaction-diffusion driven photo-polymerization process for an index modulation formation to create volume phase gratings. Further we elucidate the selection of monomer chemistry and discuss details of the recording conditions based on the concept of exposure dosage and exposure time. Influences ranging from high dosage recording to low power recording are explained and how to affect the desired diffraction efficiency. Finally, we outline and demonstrate the process to mass manufacturing of volume phase gratings.

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Detailed investigation of the propagation rate of urethane acrylates

et al. 2010

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Holographic recording aspects of high-resolution Bayfol HX photopolymer

Berneth

Bruder

Fäcke

et al. 2011

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Comparison of a new self developing photopolymer with AA/PVA based photopolymer utilizing the NPDD model

Gleeson¹,

Sheridan²,

Bruder³

et al. 2011

Opt. Express

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Abstract:The development of suitable recording media for applications such as holographic optical elements and holographic data storage are of significant research and commercial interest. In this paper, a photopolymer material developed by Bayer MaterialScience is examined using various optical techniques and then characterised using the Non-local Photopolymerization Driven Diffusion model. This material demonstrates the capabilities of a new class of photopolymer offering high index modulation, full colour recording, high light sensitivity and environmental stability. One key result of this study is the material's high spatial frequency resolution, indicating a very low non-local effect, thus qualifying it as a very good storage medium. ©2011 Optical Society of America References and links1. L. Dhar, A. Hale, H. E. Katz, M. L. Schilling, M. G. Schnoes, and F. C. Schilling, "Recording media that exhibit high dynamic range for digital holographic data storage," Opt. Lett. 24(7), 487-489 (1999).

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Thomas Rölle

From the Surface to Volume: Concepts for the Next Generation of Optical–Holographic Data‐Storage Materials

The Chemistry and Physics of Bayfol® HX Film Holographic Photopolymer

Detailed investigation of the propagation rate of urethane acrylates

Holographic recording aspects of high-resolution Bayfol HX photopolymer

Comparison of a new self developing photopolymer with AA/PVA based photopolymer utilizing the NPDD model

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