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ECE 299 Holography and Coherent ImagingLecture 4 Volume Holography

David J. BradyDuke University

Lecture 4. Volume Holography

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Outline

1. History of volume holography2. Volume holographic media and hologram

formation3. Integral equation analysis4. Bragg matching and the wave normal sphere

Lecture 4. Volume Holography

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Denisyuk Holography

Lecture 4. Volume Holography

•My Way in Holography•Yu. N. Denisyuk•Leonardo, Vol. 25, No. 5, Archives of Holography: A Partial View of a Three-Dimensional World: Special Issue (1992), pp. 425-430

1962

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Lippman Photography

Lecture 4. Volume Holography

http://nobelprize.org/nobel_prizes/physics/articles/biedermann/index.html

Gabriel Lippmann

http://en.wikipedia.org/wiki/Lippmann_plate

1904

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Van Heerden

Lecture 4. Volume Holography

P. J. van Heerden, "Theory of Optical Information Storage in Solids," Appl. Opt. 2, 393-400 (1963)

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Van Heerden

Lecture 4. Volume Holography

P. J. van Heerden, "Theory of Optical Information Storage in Solids," Appl. Opt. 2, 393-400 (1963)

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Van Heerden

Lecture 4. Volume Holography

P. J. van Heerden, "Theory of Optical Information Storage in Solids," Appl. Opt. 2, 393-400 (1963)

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Van Heerden

Lecture 4. Volume Holography

P. J. van Heerden, "Theory of Optical Information Storage in Solids," Appl. Opt. 2, 393-400 (1963)

Kent B. Hill, Kenneth G. Purchase, and David J. Brady, "Pulsed-image generation and detection," Opt. Lett. 20, 1201-1203 (1995)

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Van Heerden

Lecture 4. Volume Holography

P. J. van Heerden, "Theory of Optical Information Storage in Solids," Appl. Opt. 2, 393-400 (1963)

www.disp.duke.edu/~dbrady/courses/holography

Van Heerden

Lecture 4. Volume Holography

P. J. van Heerden, "Theory of Optical Information Storage in Solids," Appl. Opt. 2, 393-400 (1963)

www.disp.duke.edu/~dbrady/courses/holography

Van Heerden

Lecture 4. Volume Holography

P. J. van Heerden, "Theory of Optical Information Storage in Solids," Appl. Opt. 2, 393-400 (1963)

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Volume Holographic Materials

Lecture 4. Volume Holography

Group Example Optical effect Sensitivity Lifetime modulation

Silver halide photodarkening High irreversible Absorption

Dicromated gelatin

Structural change/ air dielectric interface

High irreversible 0.01

Photochromics KCL Photodarkening or bleaching

Medium reversible absorption

Photorefractives LiNbO3 Space charge field/electrooptic effect

Low reversible 0.00001

Photopolymers polymerization Medium irreversible 0.01

Chi3 nonlinearities

Real-time nonlinearity

Very low Real-time 0.00000001

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Holographic Materials

Lecture 4. Volume Holography

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Hologram Formation

Lecture 4. Volume Holography

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Hologram Reconstruction

Lecture 4. Volume Holography

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Hologram Reconstruction

Lecture 4. Volume Holography

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Integral Equation Analysis

Lecture 4. Volume Holography

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Born Series

Lecture 4. Volume Holography

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Properties of Hankel Function

Lecture 4. Volume Holography

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Hologram Reconstruction

Lecture 4. Volume Holography

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Hologram Reconstruction

Lecture 4. Volume Holography

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Bragg Matching and the Wave Normal Sphere

Lecture 4. Volume Holography