Leseprobe

Holographic Data Storage

eBook - From Theory to Practical Systems

Dhar, Lisa/Ayres, Mark/Hill, Adrian et al

WILEY

Physik, Astronomie/Elektrizität, Magnetismus, Optik

Erschienen am 08.06.2010, 1. Auflage 2010

127,99 €

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Bibliografische Daten

ISBN/EAN: 9780470666548

Sprache: Englisch

Umfang: 440 S., 10.43 MB

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Format: PDF
DRM: Adobe DRM

Beschreibung

Holographic Data Storage: From Theory to Practical Systems is a primer on the design and building of a holographic data storage system covering the physics, Servo, Data Channel, Recording Materials, and optics behind holographic storage, the requirements of a functioning system, and its integration into "real-life" systems. Later chapters highlight recent developments in holographic storage which have enabled readiness for commercial implementation and discuss the general outlook for the technology, including the transition from professional to consumer markets and the possibilities for mass reproduction.

Autorenportrait

Kevin Curtis is the author ofHolographic Data Storage: From Theory to Practical Systems, published by Wiley.

Lisa Dhar is the author ofHolographic Data Storage: From Theory to Practical Systems, published by Wiley.

Adrian Hill is the author ofHolographic Data Storage: From Theory to Practical Systems, published by Wiley.

William Wilson is the author ofHolographic Data Storage: From Theory to Practical Systems, published by Wiley.

Mark Ayres is the author ofHolographic Data Storage: From Theory to Practical Systems, published by Wiley.

Inhalt

Foreword.

Preface.

List of Contributors.

1 Introduction (Kevin Curtis, Lisa Dhar and Liz Murphy).

1.1 The Road to Holographic Data Storage.

1.2 Holographic Data Storage.

1.3 Holographic Data Storage Markets.

1.4 Summary.

Acknowledgements.

References.

2 Introduction to Holographic Data Recording (William Wilson, Alan Hoskins, Mark Ayres, Adrian Hill and Kevin Curtis).

2.1 Introduction.

2.2 Brief History of Holography.

2.3 Holographic Basics.

2.4 Volume Holograms.

2.5 Multiplexing Techniques.

2.6 Address Space Limitations on Holographic Densities.

2.7 Summary.

References.

3 Drive Architectures (Kevin Curtis, Adrian Hill and Mark Ayres).

3.1 Introduction.

3.2 Collinear/Coaxial Architecture.

3.3 InPhase Architecture.

3.4 Monocular Architecture.

Acknowledgements.

References.

4 Drive Components (Kevin Curtis and Brad Sissom).

4.1 Introduction.

4.2 Laser.

4.3 SLM.

4.4 Image Sensor.

4.5 Beam Scanners.

4.6 Isoplanatic Lenses.

4.7 Polytopic Filter.

Acknowledgements.

References.

5 Materials for Holography (Kevin Curtis, Lisa Dhar and William Wilson).

5.1 Introduction.

5.2 Requirements for Materials for HDS.

5.3 Candidate Material Systems.

5.4 Summary.

References.

6 Photopolymer Recording Materials (Fred Askham and Lisa Dhar).

6.1 Introduction to Photopolymers.

6.2 Photopolymer Design.

6.3 Holographic Recording in Photopolymers.

6.4 Rewritable.

References.

7 Media Manufacturing (David Michaels and Lisa Dhar).

7.1 Introduction.

7.2 Tapestry Media Overview.

7.3 Media Manufacturing Process.

7.4 Specifications for the Tapestry Media.

7.5 Manufacturing of Higher Performance Tapestry Media.

Acknowledgements.

References.

8 Media Testing (Kevin Curtis, Lisa Dhar, Alan Hoskins, Mark Ayres and Edeline Fotheringham).

8.1 Introduction.

8.2 Plane Wave Material Testing.

8.3 Bulk Index Measurements.

8.4 Scatter Tester.

8.5 Spectrophotometers/Spectrometers.

8.6 Scanning Index Microscope.

8.7 Interferometers.

8.8 Research Edge Wedge Tester.

8.9 Defect Detection.

8.10 Digital Testing of Media Properties.

8.11 Accelerated Lifetime Testing.

Acknowledgements.

References.

9 Tapestry Drive Implementation (Kevin Curtis, Ken Anderson, Adrian Hill and Aaron Wegner).

9.1 Introduction.

9.2 Optical Implementation.

9.3 Mechanical Implementation.

9.4 Electronics and Firmware.

9.5 Basic Build Process.

9.6 Defect Detection.

9.7 Read and Write Transfer Rate Models.

9.8 Summary.

Acknowledgements.

References.

10 Data Channel Modeling (Lakshmi Ramamoorthy, V. K. Vijaya Kumar, Alan Hoskins and Kevin Curtis).

10.1 Introduction.

10.2 Physical Model.

10.3 Channel Identification.

10.4 Simple Channel Models.

Acknowledgements.

References.

11 Data Channel (Adrian Hill, Mark Ayres, Kevin Curtis and Tod Earhart).

11.1 Overview.

11.2 Data Page Formatting.

11.3 Data Channel Metrics.

11.4 Oversampled Detection.

11.5 Page Level Error Correction.

11.6 Fixed-Point Simulation of Data Channel.

11.7 Logical Format.

Acknowledgements.

References.

12 Future Data Channel Research (Mark Ayres and Kevin Curtis).

12.1 Introduction.

12.2 Homodyne Detection.

12.3 Phase Quadrature Holographic Multiplexing.

12.4 Other Research Directions.

Acknowledgements.

References.

13 Writing Strategies and Disk Formatting (Kevin Curtis, Edeline Fotheringham and Paul Smith).

13.1 Introduction.

13.2 Media Consumption.

13.3 Scheduling and Write Pre-compensation.

13.4 Media Formatting.

Acknowledgements.

References.

14 Servo and Drive Control (Alan Hoskins, Mark Ayres and Kevin Curtis).

14.1 Introduction.

14.2 Holographic System Tolerances.

14.3 Algorithms.

14.4 Drive Controls.

Acknowledgements.

References.

15 Holographic Read Only Memories (Ernest Chuang and Kevin Curtis).

15.1 Introduction.

15.2 System Design Considerations.

15.3 Reader Design.

15.4 Media Design.

15.5 Two-Step Mastering.

15.6 Mastering and Replicating Disk Media.

15.7 Sub-mastering System.

15.8 Mastering System.

15.9 Replicating System.

15.10 Margin Tester System.

15.11 Experimental Results.

15.12 Asymmetric Phase Conjugation.

15.13 Non Fourier Plane Polytopic Filter Designs.

15.14 Cost Estimates.

15.15 Product Roadmap.

15.16 Summary and Future Improvements.

Acknowledgements.

References.

16 Future Developments (Kevin Curtis, Lisa Dhar, Liz Murphy and Adrian Hill).

16.1 Technology Evolution.

16.2 New Applications.

16.3 Summary.

References.

Index.

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