- Sections
- A. General Materials & Mathematics
- B. Statics
- C. Kinematics & Dynamics
- D. Rotational Mechanics
- E. Gravitation & Astronomy
- F. Fluid Mechanics
- G. Vibrations & Mechanical Waves
- H. Sound
- I. Thermodynamics
- J. Electrostatics & Magnetostatics
- K. Electromagnetic Principles
- L. Geometrical Optics
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- P. Modern Physics
M1-34. Laser Difffraction - Compact Disc
Purpose
To demonstrate interference of a laser beam by a type of grating.
Equipment
Laser (on cart) with compact disc.
Images
Descrption
This demonstration uses a compact disc recording to produce an interference pattern with a laser beam. Hold the CD at an angle with respect to the incoming laser beam and look for the diffraction pattern on the wall or the ceiling. Note that the angle must be reasonably large because the spacing of the spiral "groove" on the disc is 1.6 microns, only about twice the wavelength of the laser light. You will see both the interference pattern and specular reflection off the shiny surface of the dics.
References
Christian Noldeke, Compact Disc Diffraction, TPT 28, 484-485 (1990). ◙Haym Kruglak, Diffraction Demonstration with a Compact Disc, TPT 31, 104 (1993). ◙Vittorio Zanetti and John Harris, Spectra of Three Light Sources with a CD, TPT 31, 82-83 (1993).
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See pagesm2. diffraction circular
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See pagesm3. interferometers
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See pagesm4. thin film interference
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See pagesm6. holograms
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See pagesm7. polarization & scattering
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See pagesm8. optical activity & birefringence
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See pagesm9. elliptical polarization
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See pagesm2. diffraction circular
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See pagesm3. interferometers
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See pagesm4. thin film interference
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See pagesm6. holograms
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See pagesm7. polarization & scattering
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See pagesm8. optical activity & birefringence
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See pagesm9. elliptical polarization