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

Slides:

Advertisements

Similar presentations

Making A Hologram. What is a hologram? A hologram is a 3-D image constructed from the interference of two coherent light beams; a reference beam, and.

Advertisements

Another example of interference that is often observed is interference from a thin film. Light incident on the surface of a thin film is reflected from.

Diffraction and Interference

Diffraction and Interference Physics Light Light has Wave properties Light can Diffract Light can Interfere – Constructively – Destructively.

Lesson 26 Diffraction and Interference Eleanor Roosevelt High School Chin-Sung Lin.

The HeNe laser used in holography research

Muhammad Hasan Danish Khan University of Vaasa, Finland.

Holography Gilbert Collins & Billy Hatfield Physics 173.

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

Fig A cubic crystal and two different families of crystal planes. The spacing of the planes in (a) is d = a (2) -1/2 (b) is d = a (3) -1/2 There.

Physics 496 Michael Atkinson

Qiang Hao Dec Holography. * A hologram is a recording which contains both intensity and phase information. * By using a reference beam, we can.

Copyright © 2012 Pearson Education Inc. PowerPoint ® Lectures for University Physics, Thirteenth Edition – Hugh D. Young and Roger A. Freedman Lectures.

© 2012 Pearson Education, Inc. { Chapter 36 Diffraction (cont.)

Applications of Diffraction Outline - Interference - Diffraction - Examples:. Diffraction Gratings. Photonic Crystals. Interference Lithography - Holography.

Physics 1C Lecture 27C Quiz # on Monday: All of Chapters 26 and 27.

Chapter 5 Holography Dennis Gabor in 1948 → the invention Dennis Gabor with the invention of laser → reached its full potential Leith and Upatnieks (1962)

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.

Leow S.T. Aloysius 3O3 (15).  Ever saw a Star Wars movie and wondered what is that green 3-D image of Yoda?  This image is actually a hologram.

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

MIT 2.71/2.710 Optics 12/06/04 wk14-a- 1 Holography Preamble: modulation and demodulation The principle of wavefront reconstruction The Leith-Upatnieks.

The Michelson interferometer Best known and historically most important Best known and historically most important Utilizes arrangement of mirrors (M)

10/17/97Optical Diffraction Tomography1 A.J. Devaney Department of Electrical Engineering Northeastern University Boston, MA USA

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

Hologram Basics: A laser-generated image with three-dimensional properties Created by capturing the intensity and phase information produced by the interference.

HOLOGRAPHIC MEMORY CONTENTS INTRODUCTION BACKGROUND KEYWORDS BASIC PRINCIPLES & COMPONENTS DATA RECORDING & DATA READING TECHNICAL PROBLEMS RESEARCH.

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.

Daily Challenge, 1/7 If light is made of waves and experiences interference, how will the constructive and destructive interference appear to us?

Semiconductors. Direct bandgap semiconductors (GaAs, InGaAs, InGaAsP) The minimum of CB is directly above the maximum of VB Electro-hole pair can recombine.

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

Diffraction and Interference

Holography. The inventor Holography was discovered by Dennis Gabor, who received the Nobel Prize for Physics in He studied at the Technical University.

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

Chapter 29 Light Waves In this chapter we will study Huygens’ Principle Diffraction Interference Polarization Holography.

Chapter 29 Light Waves. 1.HUYGENS' PRINCIPLE   Every point on a wave front can be regarded as a new source of wavelets, which combine to produce the.

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.

AJB Period 7 music,: free play music, Bad Road, 5/7/2010,

12.4 Essential Questions How is a hologram made? When does total internal reflection occur? How are optical fibers used? Using Light Copyright © McGraw-Hill.

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.

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.

Chapter 29 Light Waves. Huygens’ Principle Every point on a wave front can be regarded as a new source of wavelets, which combine to produce the next.

Agenda Today –Thin Film Interference Friday –Diffraction (Ch. 36)

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

HOLOGRAPHY Inderjit Singh Associate Professor of Physics

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

Holography Jeremy Ritter Department of Physics University of Texas at Austin.

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

3D Display Techniques.

Holography Jeremy Ritter Department of Physics University of Texas.

Interference and Diffraction

An example of holography

3D Holographic Technology

Conceptual Physics 11th Edition

Topics covered: What is holography? History of holography – Timeline

LNF Seminar’ Frascati, Italy

Holography Seminar on 2nd December /18/ :41:04 PM.

Section 4: Using Light Light can be used to form three-dimensional images and to transmit information in optical fibers. K What I Know W What I Want to.

Digital Holographic Microscopy for Quantitative Visualization

Thin film Interference

Diffraction and Interference

Chapter 14: Light Section 4: Using Light

Holography Traditional imaging

Acoustic Holography Sean Douglass.

Presentation transcript:

Holography Group D 蘇郁倫、楊士鋒、葉嘉儀、徐士璿

Outline Introduction Making a Hologram Production Application Reference

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

Introduction A method of obtaining three- dimensional photographic images. These images are obtained without a lens, so the method is also called lensless photography. The records are called holograms. Developed by the British physicist Dennis Gabor in British physicist Dennis Gabor won the Nobel Prize in physics in 1971.

Making a hologram

Exposing a film to laser light which is scattered by the object being holographed and light coming directly from the laser. The film simply records the interference pattern, which is the hologram. To view the image, the hologram is illuminated by light, which is diffracted by the interference pattern. Thus reproducing the original surface pattern of the object in three dimensions.

Production 3 attributes of light: - intensity 、 color 、 direction Not only the intensity distribution of reflected light is recorded but also the phase distribution. - coherent reference beam interfere with the reflected waves. Viewed from different angles, the object is also seen from different angles.

Application Optical microscopy for organisms. The most important application is in interferometer. 3D picture. The storage of digital data. - a large number of “pages” can be recorded in one hologram.

Application In interferometer: - If one constructs two holograms of the same object on the same plate and the object underwent a deformation between the two recordings, then upon reconstruction the two holographic images, phase differences in certain parts of the two images will result, shows the deformation clearly. This method is extremely sensitive for deformation studies.

Application 3D picture:

Reference Holography The history of holography inventors/blholography.htm/