ECE 299 Holography and Coherent Imaging Lecture 14. Midterm Review David J. Brady Duke University Lecture 14 Midterm review www.disp.duke.edu/~dbrady/courses/holography.

Slides:

Advertisements

Similar presentations

Muhammad Hasan Danish Khan University of Vaasa, Finland.

Advertisements

Three Dimensional Visual Display Systems for Virtual Environments Presented by Evan Suma Part 3.

Common Volume Multiplexing Technigues Coupled Wave Theory Derivation of Angular Selectivity Experimental Study of Angular Selectivity Optimum Beam Ratio.

Aberrations  Aberrations of Lenses  Analogue to Holographic Model  Aberrations in Holography  Implications in the aberration equations  Experimental.

Holography. Introduction What’s holography? From escalator of MRT CKS memorial hall station.

Microwave Imaging using Indirect Synthetic Reference Beam Holography

Lecture 39 Spatial Coherence and Holography Honors talks this evening….

Microwave Teaching and Research at Northumbria University Prof. David Smith School of Computing, Engineering and Information Technology.

Structural Vibrations Uwe J. Hansen Department of Physics Indiana State University Terre Haute, IN

Alex Sushkov Phys208 Oct Photorefractive effects and their applications.

Introduction. Lectures Display wall Visualization projects Mid-term Final project Office hours Communication Course structure.

Introduction. Lectures Display wall Mid-term Final project Office hours Communication Course structure.

Chapter 6 Color Image Processing Chapter 6 Color Image Processing.

Scanning Multiple Projection Digital Image Processor Stroboscope v Through 2D Recording v Through 3D Recording Paths to 3D PIV  Holography.

Tutorial on Computational Optical Imaging University of Minnesota September David J. Brady Duke University

1 Holography Mon. Dec. 2, History of Holography Invented in 1948 by Dennis Gabor for use in electron microscopy, before the invention of the laser.

3D Holographic Projection Technology ABIN BABY ROLL NO: 03.

Tutorial on Computational Optical Imaging

Holography. Irradiance  A photograph records the irradiance of an image. Energy per unit areaEnergy per unit area  Light areas represent high irradiance.

Other Applications using DMD By Walid. Introduction DMD, a dense array of hundreds of thousands of tiny switchable mirrors, whose pixel speed, contrast.

ECE 299 Holography and Coherent Imaging Lecture 5. Display Holography David J. Brady Duke University Lecture 5. Display Holographywww.disp.duke.edu/~dbrady/courses/holography.

#SIG January ’14 IIT Roorkee Pathak Madhav Kiritkumar IIT Roorkee Holography & Digital Holographic Data Storage.

ECE 299 Holography and Coherent Imaging Lecture 1 Gabor Holography David J. Brady Duke University Lecture 1: Gabor Holographywww.disp.duke.edu/~dbrady/courses/holography.

What does LASER stand for? LASER is short for Light Amplification by Stimulated Emission of Radiation Lasers are constantly around us DVDs, laser shows,

Tutorial on Computational Optical Imaging University of Minnesota September David J. Brady Duke University

Fourier relations in Optics Near fieldFar field FrequencyPulse duration FrequencyCoherence length Beam waist Beam divergence Focal plane of lensThe other.

HOLOGRAPHIC DATA STORAGE. Contents Introduction  Magnetic and conventional optical data storage technologies are approaching physical limits beyond.

EE 8390: Marc P. Christensen Associate Professor Electrical Engineering Department Southern Methodist University Dallas, TX (214)

HOLOGRAMS. The object is hit with laser light. The data is recorded onto a plate by capturing the reflected, diffracted and scattered light. The.

ECE 299 Holography and Coherent Imaging

Holography Group D 蘇郁倫、楊士鋒、葉嘉儀、徐士璿. Outline Introduction Making a Hologram Production Application Reference.

Demo request 4/8 Monday Physics 471 C285 ESC, 2 pm Hess call to confirm. Holography demo kit with laser, chess, cannon holograms in cylindrical.

ECE 299 Holography and Coherent Imaging

Optical Holography Martin Janda, Ivo Hanák Introduction Wave Optics Principles Optical holograms Optical Holography Martin Janda, Ivo Hanák Introduction.

Microscopie holographique à contraste de phase quantitative dans les cellules vivantes P. Marquet 1, E. Cuche 2, J.-Y. Chatton 1, C. Depeursinge 2, P.

Image Reconstruction from Non- Uniformly Sampled Spectral Data Alfredo Nava-Tudela AMSC 663, Fall 2008 Midterm Progress Report Advisor: John J. Benedetto.

Tutorial on Computational Optical Imaging University of Minnesota September David J. Brady Duke University

18-Dec-15 OUT LINES 1.INTRODUCTION 2.CONCEPT OF HOLOGRAM 3.REQUIREMENTS FOR HOLOGRAPHY 4.DIFFERENCE BETWEEN PHOTOGRAPHY & HOLOGRAPHY.

Tutorial on Computational Optical Imaging University of Minnesota September David J. Brady Duke University

ECE 299 Holography and Coherent Imaging Lecture 4 Volume Holography David J. Brady Duke University Lecture 4. Volume Holographywww.disp.duke.edu/~dbrady/courses/holography.

Holographic Technology Group 10 Nick Ponder, Brandon Day, Brad Wright, Jason Tipton, Nathan Kinard.

ECE 299 Holography and Coherent Imaging Lecture 12. HW catch-up and Digital Holography Introduction David J. Brady Duke University Lecture 12: Catch-up.

HOLOGRAPHY Inderjit Singh Associate Professor of Physics

Coupled wave theory By Daniel Marks September 10, 2009 ECE 299 Holography and Coherence Imaging Lecture 7 Duke University.

Observing Transfer Functions For Multimode Spectrometers.

Holographic Technology By: Tyler Smith. When was it first made?  The first hologram to ever be used was in 1967; this hologram was of a person.

D. PADIYAR J. PADIYAR. Advantages High Efficiency Bragg Selectivity Ease of Development Disadvantages Data not accessible for mass production.

Holograms Roger Rothenberg. Record of light scattered from an object Same light field is ‘reconstructed’ without original object present Requires laser.

Flight Simulator Overview Flight Compartment Host Computer Motion Control Cabinet Motion Platform 13/6/2016 Visual Display Visual Image Generator Interface.

Auto-stereoscopic Light-Field Display By: Jesus Caban George Landon.

Appendix A : Fourier transform

Presented By: Manu G.R VIII sem ECE CIT, Gubbi HOLOGRAPHIC DATA STORAGE Guide: Veena Kumari H.M. M.Tech., Asst. Professor, Dept., of ECE, CIT, Gubbi.

OPTICAL DATA SECURITY ARUNKUMAR P.S S 7 EC A ROLL NO- 16.

Date of download: 6/24/2016 Copyright © 2016 SPIE. All rights reserved. (a) Setup for phase-shifting digital holography. BS, beam splitters; PZT, piezoelectric.

Date of download: 9/17/2016 Copyright © 2016 SPIE. All rights reserved. Color digital holography (DH) and computer-generated hologram (CGH) calculations.

3D Holographic Technology

Master’s Thesis Defense

Image Enhancement in the

Lecture 16 Figures from Gonzalez and Woods, Digital Image Processing, Second Edition, 2002.

Color Image Processing

ECE 299 Holography and Coherent Imaging

ECE 299 Holography and Coherent Imaging

ECE 299 Holography and Coherent Imaging

ECE 299 Holography and Coherent Imaging

Holography Traditional imaging

Practice Geometry Practice

Presentation transcript:

ECE 299 Holography and Coherent Imaging Lecture 14. Midterm Review David J. Brady Duke University Lecture 14 Midterm review

6 questions 1.Spatial resolution of a holographic image 2.Recording geometry for off-axis hologram 3.Reconstruction color and resolution of a display hologram 4.Bragg matching bandwidth, volume storage 5.OCT/time of flight imaging 6.Computer generated holograms Lecture 14 Midterm reviewwww.disp.duke.edu/~dbrady/courses/holography

Question 1 Spatial resolution of a holographic image Lecture 14 Midterm reviewwww.disp.duke.edu/~dbrady/courses/holography

Question 2 Recording geometry for off-axis hologram Lecture 14 Midterm reviewwww.disp.duke.edu/~dbrady/courses/holography

Lecture 14 Midterm reviewwww.disp.duke.edu/~dbrady/courses/holography

Question 3 Reconstruction color and resolution of a display hologram Lecture 14 Midterm reviewwww.disp.duke.edu/~dbrady/courses/holography

Question 4 Bragg matching bandwidth, volume storage Lecture 14 Midterm reviewwww.disp.duke.edu/~dbrady/courses/holography

Lecture 14 Midterm reviewwww.disp.duke.edu/~dbrady/courses/holography

Question 5 OCT/time of flight imaging Lecture 14 Midterm reviewwww.disp.duke.edu/~dbrady/courses/holography

Question 6 Computer generated holograms Lecture 14 Midterm reviewwww.disp.duke.edu/~dbrady/courses/holography