REFERENCES
REFERENCES SECTION M
M1:INTERFERENCE AND DIFFRACTION - SLITS AND GRATINGS*
- M1-01: LASER DIFFRACTION - FIXED SINGLE SLIT
- David Dutton, M Parker Givens, and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, Spectra-physics Laser Technical Bulletin, (1963).
- Paul A. Young, A Student Experiment in Fresnel Diffraction, AJP 32, 367-369, (1964).
- David Dutton, M. Parker Givens and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, AJP 32, 355-361, (1964).
- Haven Whiteside, Laser Optics Experiments and Demonstrations, AJP 33, 487-492, (1965).
- F. Y. Yap, Some More Simple Laser Experiments for the Undergraduate Laboratory, AJP 37, 1204-1206 (1969).
- Roy H. Biser, Modern Methods for the Study of Optical Diffraction, TPT 7, 158-161, (1969).
- Stephan Berko, Yon G. Lee, Fulton Wright, Jr., and Jon Rosenfeld, Undergraduate Laser Diffraction Experiments Using Large Objects, AJP 38, 348-352 (1970).
- James Mahoney, Laser Interference by a Convex Mirror, TPT 10, 406, (1972).
- Lewis Epstein, Dakin's Crazy Interferometer, and Donald Beaty, Two Laser Demonstrations, TPT 10, 213, (1972).
- J. E. Purcell, Particle Diffraction by a Single Slit as Error Propagation, AJP 42, 1112-1116 (1974).
- Frank G. Karioriis, Television Display of Diffraction and Interference Phenomena, TPT 14, 504-506, (1976).
- Carol L. Miles, Subjective measurement of resolution of a slit-limited eye, AJP 58, 552-554 (1990).
- Joseph van der Gracht, Simple method for demonstrating Fraunhofer diffraction, AJP 62, 934-937 (1994).
- G. R. Davies, Deck the Halls: Interference and Diffraction Corridor Demonstrations, TPT 33, 244-247 (1995).
- Instruction Manual: HeNe-Laser 5 00, Klinger Scientific.
- Instruction Manual: HeNe-Laser 500 N, Klinger Scientific.
- Ernst Berkhan, Claus Cornelius, Phywe Aktiengesellschaft Gottingen, Experiments with Coherent Light.
- Experiments in Optics, Part I, Klinger Scientific.
- M1-02: LASER DIFFRACTION - VARIABLE SINGLE SLIT
- David Dutton, M Parker Givens, and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, Spectra-physics Laser Technical Bulletin, (1963).
- Paul A. Young, A Student Experiment in Fresnel Diffraction, AJP 32, 367-369, (1964).
- David Dutton, M. Parker Givens and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, AJP 32, 355-361, (1964).
- Haven Whiteside, Laser Optics Experiments and Demonstrations, AJP 33, 487-492, (1965).
- Roy H. Biser, Modern Methods for the Study of Optical Diffraction, TPT 7, 158-161, (1969).
- James Mahoney, Laser Interference by a Convex Mirror, TPT 10, 406, (1972).
- Lewis Epstein, Dakin's Crazy Interferometer, and Donald Beaty, Two Laser Demonstrations, TPT 10, 213, (1972).
- Frank G. Karioriis, Television Display of Diffraction and Interference Phenomena, TPT 14, 504-506, (1976).
- Instruction Manual: HeNe-Laser 5 00, Klinger Scientific.
- Instruction Manual: HeNe-Laser 500 N, Klinger Scientific.
- Ernst Berkhan, Claus Cornelius, Phywe Aktiengesellschaft Gottingen, Experiments with Coherent Light.
- Experiments in Optics, Part I, Klinger Scientific.
- M. P. Silverman and Wayne Strange, The Newton two-knife experiment:
Intricacies of wedge diffraction, AJP 64, 773-787 (1996).
- M1-03: SINGLE SLIT DIFFRACTION - FRESNEL & FRAUNHOFER
- Allen L. Moen and David L. Vander Meulen, Fresnel Diffraction Using a He-Ne Gas Laser, AJP 38, 1095-1096 (1970).
- R. Boyer and E. Fortin, Intensity Measurements in a Fresnel Diffraction Pattern, AJP 40, 74-76 (1972).
- Partha P. Banerjee and Ting-Chung Poon, On a simple derivation of the Fresnel diffraction formula and a transfer function approach to wave propagation, AJP 58, 576-579 (1990).
- T. W. Mayes and B. F. Melton, Fraunhofer diffraction of visible light by a narrow slit, AJP 62, 397-403 (1994).
- Bruce Mechtly and Albert A. Bartlett, Graphical representations of Fraunhofer interference and diffraction, AJP 62, 501-510 (1994).
- Xincheng Yan, Yixin Yu, Louis Shen, and Keith H. Wanser, Near-field - far-field transition of a finite line source using incoherent light: A student laboratory experiment, AJP 63, 47-53 (1995).
- M. P. Silverman and Wayne Strange, The Newton two-knife experiment:
Intricacies of wedge diffraction, AJP 64, 773-787 (1996).
- M1-04: LASER DIFFRACTION - WIRES
- David Dutton, M Parker Givens, and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, Spectra-physics Laser Technical Bulletin, (1963).
- David Dutton, M. Parker Givens and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, AJP 32, 355-361, (1964).
- Paul A. Young, A Student Experiment in Fresnel Diffraction, AJP 32, 367-369, (1964).
- Haven Whiteside, Laser Optics Experiments and Demonstrations, AJP 33, 487-492, (1965).
- Roy H. Biser, Modern Methods for the Study of Optical Diffraction, TPT 7, 158-161, (1969).
- James Mahoney, Laser Interference by a Convex Mirror, TPT 10, 406, (1972).
- Lewis Epstein, Dakin's Crazy Interferometer, and Donald Beaty, Two Laser Demonstrations, TPT 10, 213, (1972).
- S. M. Curry and A. L. Schawlow, Measuring the Diameter of a Hair by Diffraction, AJP 42, 412-413 (1974).
- Frank G. Karioriis, Television Display of Diffraction and Interference Phenomena, TPT 14, 504-506, (1976).
- Robert G. Greenler, Joel W. Hable, and Patrick O. Slane, Diffraction Around a Fine Wire: How Good is the Single-slit Approximation?, AJP 58, 330-331, (1990).
- Instruction Manual: HeNe-Laser 5 00, Klinger Scientific.
- Instruction Manual: HeNe-Laser 500 N, Klinger Scientific.
- Ernst Berkhan, Claus Cornelius, Phywe Aktiengesellschaft Gottingen, Experiments with Coherent Light.
- Experiments in Optics, Part I, Klinger Scientific.
- M1-05: FINGERS AND SODIUM SOURCE - VARIABLE SINGLE SLIT
- None.
- M1-11: LASER DIFFRACTION - FIXED DOUBLE SLITS
- David Dutton, M Parker Givens, and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, Spectra-physics Laser Technical Bulletin, (1963).
- Paul A. Young, A Student Experiment in Fresnel Diffraction, AJP 32, 367-369, (1964).
- David Dutton, M. Parker Givens and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, AJP 32, 355-361, (1964).
- Haven Whiteside, Laser Optics Experiments and Demonstrations, AJP 33, 487-492, (1965).
- Roy H. Biser, Modern Methods for the Study of Optical Diffraction, TPT 7, 158-161, (1969).
- E. Fortin, Direct Demonstration of the Fresnel-Arago Law, AJP 38, 917-918 (1970).
- James L. Hunt and Gabriel Karl, Interference with Polarized Light Beams, AJP 38, 1249-1250 (1970).
- Edward Collett, Mathematical Formulation of the Interference Laws of Fresnel and Arago, AJP 39, 1483-1495 (1971).
- C. L. Andrews, Demonstration of Babinet's Principle, AJP 39, 122-124 (1971).
- James Mahoney, Laser Interference by a Convex Mirror, TPT 10, 406, (1972).
- Lewis Epstein, Dakin's Crazy Interferometer, and Donald Beaty, Two Laser Demonstrations, TPT 10, 213, (1972).
- D. Pescetti, Interference between Elliptically Polarized Light Beams, AJP 40, 735-740 (1972).
- Chun Chiang, On the Young's Interference Pattern, AJP 41, 422-423 (1973).
- Frank G. Karioriis, Television Display of Diffraction and Interference Phenomena, TPT 14, 504-506, (1976).
- E. C. G. Sudarshan and Tony Rothman, The two-slit interferometer reexamined, AJP 59, 592-595 (1991).
- F. Louradour, F. Reynaud, B. Colombeau, and C. Froehly, Interference fringes between two separate lasers, AJP 61, 242-245 (1993).
- Philip R. Wallace, Comment on "Interference fringes between two separate lasers, by F. Louradour, F. Reynaud, B. Colombeau, and C. Froehly [AJP 61, 242-245 (1993)], AJP 62, 950 (1994).
- Lloyd M. Davis and C. Parigger, Comment on "Interference fringes between two separate lasers, by F. Louradour, F. Reynaud, B. Colombeau, and C. Froehly [AJP 61, 242-245 (1993)], AJP 62, 951-952 (1994).
- William Moebs and Jeff Sanny, A Simple Description of Coherence, TPT 32, 54-56 (1994).
- Instruction Manual: HeNe-Laser 5 00, Klinger Scientific.
- Instruction Manual: HeNe-Laser 500 N, Klinger Scientific.
- Ernst Berkhan, Claus Cornelius, Phywe Aktiengesellschaft Gottingen, Experiments with Coherent Light.
- Experiments in Optics, Part I, Klinger Scientific.
- M1-12: INTERFERENCE - TRANSPARENCIES
- E. L. Cleveland, Double Slit Interference, AJP 27, 521-522, (1959).
- Harold Perlitz, Demonstrating the Principles of Interference, AJP 4, 140, (1936).
- Charles E. Miller, A Method of Demonstrating the Principles of Interference, AJP 3, 75-76, (1935).
- M1-13: INTERFERENCE - KLINGER TRANSPARENT SLIDES
- Instructions: Model Experiments on the Interference of Two Series of Waves, Leybold 41504.
- M1-14: MICROWAVES - INTERFERENCE OF TWO POINT
SOURCES
- Roland A. Allen, Verification of Bragg's Law by the Use of Microwaves, AJP 23, 297-298, (1955).
- J. Morris Blair, Using 3-cm microwaves for optics laboratory experiments, AJP 60, 63-66 (1992).
- M1-15: MICROWAVES - YOUNG'S DOUBLE SLIT INTERFERENCE
- Roland A. Allen, Verification of Bragg's Law by the Use of Microwaves, AJP 23, 297-298, (1955).
- M1-16: INTERFERENCE OF LIGHT - SOUND WAVE MODEL
- None.
- M1-21: LASER DIFFRACTION - MULTIPLE SLITS
- Kenneth S. Mendelson and Frank G. Karioris, Multislit diffraction patterns using a slit-grating combination, AJP 63, 53-56 (1995).
- M1-22: LASER DIFFRACTION - GRATINGS
- Kenneth S. Mendelson and Frank G. Karioris, The diffraction grating under nonuniform illumination, AJP 58, 954-956 (1990).
- M1-31: PORTABLE LASER DIFFRACTION KIT
- Herbert H. Gottlieb, Experiments Using a Helium-Neon Laser, Metrologic Instruments, (1973).
- List and Description of Equipment Included in the Optics Education Kits.
- M1-32: SLITFILMS AND LONG FILAMENT BULB
- Directions for Using the Cornell Interference and DiffractionSlitfilm, The National Press.
- M1-33: LASER DIFFRACTION - PHONOGRAPH RECORD
- Scott R. Welty, Long-Playing Diffraction Grating, TPT 19, 187, (1981).
- M1-34: LASER DIFFRACTION - COMPACT DISC
- 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).
- M1-41: PEACOCK FEATHER
- None.
- M1-42: IRIDESCENT GREEN JUNE BEETLE
- None.
M2: DIFFRACTION - CIRCULAR
- M2-01: LASER DIFFRACTION - PINHOLES
- David Dutton, M Parker Givens, and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, Spectra-physics Laser Technical Bulletin, (1963).
- Paul A. Young, A Student Experiment in Fresnel Diffraction, AJP 32, 367-369, (1964).
- David Dutton, M. Parker Givens and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, AJP 32, 355-361, (1964).
- Haven Whiteside, Laser Optics Experiments and Demonstrations, AJP 33, 487-492, (1965).
- Roy H. Biser, Modern Methods for the Study of Optical Diffraction, TPT 7, 158-161, (1969).
- Roger Bernard, Interference of Two Cylindrical Waves, AJP 39, 201-202 (1971).
- James Mahoney, Laser Interference by a Convex Mirror, TPT 10, 406, (1972).
- Lewis Epstein, Dakin's Crazy Interferometer, and Donald Beaty, Two Laser Demonstrations, TPT 10, 213, (1972).
- Steven D. Peterson and Joseph E. Kasper, A New Emphasis in Diffraction Theory and Experiments, AJP 40, 1274-12181 (1972).
- C. Pontiggia and L. Zefiro, An Experiment on Interference in Scattered Light, AJP 42, 692-694 (1974).
- Frank G. Karioriis, Television Display of Diffraction and Interference Phenomena, TPT 14, 504-506, (1976).
- T. A. Wiggins, Hole gratings for optics experiments, AJP 53, 227-229 (1985).
- Instruction Manual: HeNe-Laser 5 00, Klinger Scientific.
- Instruction Manual: HeNe-Laser 500 N, Klinger Scientific.
- Ernst Berkhan, Claus Cornelius, Phywe Aktiengesellschaft Gottingen, Experiments with Coherent Light.
- Experiments in Optics, Part I, Klinger Scientific.
- M2-02: LASER DIFFRACTION - OPAQUE DISCS
- Paul A. Young, A Student Experiment in Fresnel Diffraction, AJP 32, 367-369, (1964).
- Haven Whiteside, Laser Optics Experiments and Demonstrations, AJP 33, 487-492, (1965).
- David Dutton, M. Parker Givens and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, AJP 32, 355-361, (1964).
- Frank G. Karioriis, Television Display of Diffraction and Interference Phenomena, TPT 14, 504-506, (1976).
- Roy H. Biser, Modern Methods for the Study of Optical Diffraction, TPT 7, 158-161, (1969).
- David Dutton, M Parker Givens, and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, Spectra-physics Laser Technical Bulletin, (1963).
- James Mahoney, Laser Interference by a Convex Mirror, TPT 10, 406, (1972).
- Lewis Epstein, Dakin's Crazy Interferometer, and Donald Beaty, Two Laser Demonstrations, TPT 10, 213, (1972).
- Instruction Manual: HeNe-Laser 5 00, Klinger Scientific.
- Instruction Manual: HeNe-Laser 500 N, Klinger Scientific.
- Ernst Berkhan, Claus Cornelius, Phywe Aktiengesellschaft Gottingen, Experiments with Coherent Light.
- Experiments in Optics, Part I, Klinger Scientific.
- M2-03: LASER DIFFRACTION - POISSON'S BRIGHT SPOT
- Robert P. Barrett, Letter: Poisson's Circles?, TPT 332, 326 ((1994).
- Wallace A. Hilton, Arago White Spot, AJP 36 #4, ix-x (1968).
- John B. Johnston, Projecting Poisson's Spot, TPT 16, 179-180 (1978).
- T. Kallard, Exploring Laser Light, Demonstrating the Paths of Diffracted Rays, pp. 184-185.
- C. Harvey Palmer, Optics Experiments and Demonstrations, Experiment B13. Demonstration of Fresnel Diffraction by Circular Apertures and Obstructions, pp. 196-198.
- M2-04: LASER DIFFRACTION - HALO
- David Dutton, M Parker Givens, and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, Spectra-physics Laser Technical Bulletin, (1963).
- Paul A. Young, A Student Experiment in Fresnel Diffraction, AJP 32, 367-369, (1964).
- David Dutton, M. Parker Givens and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, AJP 32, 355-361, (1964).
- Haven Whiteside, Laser Optics Experiments and Demonstrations, AJP 33, 487-492, (1965).
- Roy H. Biser, Modern Methods for the Study of Optical Diffraction, TPT 7, 158-161, (1969).
- James Mahoney, Laser Interference by a Convex Mirror, TPT 10, 406, (1972).
- Lewis Epstein, Dakin's Crazy Interferometer, and Donald Beaty, Two Laser Demonstrations, TPT 10, 213, (1972).
- Frank G. Karioriis, Television Display of Diffraction and Interference Phenomena, TPT 14, 504-506, (1976).
- Simon George and Robert Doebler, Index of Refraction Using a Diffraction Pattern in a Fishtank, TPT 29, 462-463 (1991).
- Instruction Manual: HeNe-Laser 5 00, Klinger Scientific.
- Instruction Manual: HeNe-Laser 500 N, Klinger Scientific.
- Ernst Berkhan, Claus Cornelius, Phywe Aktiengesellschaft Gottingen, Experiments with Coherent Light.
- Experiments in Optics, Part I, Klinger Scientific.
- M2-05: PINHOLE AND OPAQUE DISC - FRESN & FRAUN DIFFRAC
- None.
- M2-11: LASER DIFFRACTION - FRESNEL ZONE PLATE
- Milton Sussman, Elementary Diffaction Theory of Zone Plates, AJP 28, 394-398 (1960).
- David Dutton, M Parker Givens, and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, Spectra-physics Laser Technical Bulletin, (1963).
- Paul A. Young, A Student Experiment in Fresnel Diffraction, AJP 32, 367-369, (1964).
- David Dutton, M. Parker Givens and Robert E. Hopkins, Some Demonstration Experiments in Optics Using a Gas Laser, AJP 32, 355-361, (1964).
- Haven Whiteside, Laser Optics Experiments and Demonstrations, AJP 33, 487-492, (1965).
- Roy H. Biser, Modern Methods for the Study of Optical Diffraction, TPT 7, 158-161, (1969).
- H. Malcolm Childers and David E. Stone, Solution to the Fresnel Zone Plate Problem, AJP 37, 721-726 (1969).
- James Mahoney, Laser Interference by a Convex Mirror, TPT 10, 406, (1972).
- Lewis Epstein, Dakin's Crazy Interferometer, and Donald Beaty, Two Laser Demonstrations, TPT 10, 213, (1972).
- Frank G. Karioriis, Television Display of Diffraction and Interference Phenomena, TPT 14, 504-506, (1976).
- Charles W. Clark and Yurii N. Demkov, making zone plates with a laser printer, AJP 59, 158-162 (1991).
- Instruction Manual: HeNe-Laser 5 00, Klinger Scientific.
- Instruction Manual: HeNe-Laser 500 N, Klinger Scientific.
- Ernst Berkhan, Claus Cornelius, Phywe Aktiengesellschaft Gottingen, Experiments with Coherent Light.
- Experiments in Optics, Part I, Klinger Scientific.
- M2-12: FRESNEL ZONE PLATE - FOCAL LENGTH
- Lecture Demonstrations Record Form.
- M2-21: MICROWAVES - DIFFRACTION BY CIRCULAR APERTURE
- None.
- M2-22: MICROWAVES - DIFFRACTION BY A SPHERE
- None.
- M2-23: MICROWAVES - FRESNEL ZONES
- Thomas B. Brown, Microwave Zone Plates, AJP 30, 55-60, (1962).
- M2-31: HALO BY DIFFRACTION FROM SMALL PARTICLES
- Anonymous, White-Light Interference Fringes, AJP 35(3), XXII, (1967).
- James Mallmann, Halos, Rings, and Arcs in the Sky, Gazer's Gazette (details unknown).
- James A. Lock and James H. Andrews, Optical caustics in natural phenomena, AJP 60, 397-407 (1992).
M3: INTERFEROMETERS
- M3-01: MICHELSON INTERFEROMETER - LASER LIGHT
- Eric F. Cave and Louis V. Holroyd, Inexpensive Michelson Interferometer, AJP 23, 61, (1955).
- T. G. Bullen, Notes on an Inexpensive Form of Michelson's Interferometer, AJP 27, 520-521, (1959).
- G. Friedmann and R. Vidal, Modification to an Inexpensive Interferometer, AJP 30, 604, (1962).
- Hans Weltin, Light Beats, AJP 30, 653-654, (1962).
- Gary C. Babcock, The "Sagnac" Interferometer, AJP 30, 311, (1962).
- Physics II Laboratory Manual, Expt IV The Michelson Interferometer, (1968).
- Edward M. Parma and B. C. Thompson, Interferometer Demonstrations for Large Classes, AJP 39, 1091-1092 (1971).
- Frank L. Moore, Jr., Michelson Interferometer Alignment, AJP 39, 1395 (1971).
- Wallace A. Hilton, Modifications of Apparatus for Fringe Visibility with a Michelson Interferometer, AJP 40, 629-630 (1972).
- Physics 122 Laboratory Manual, Expt VI the Michelson Interferometer, (1973).
- Matt Bushner, Instantaneous Multiple Use of Michelson's Interferometer, TPT 15, 238-239, (1977).
- Benjamin J. Pernick and Kenneth G. Leib, The formation and optimization of interferometric fringes, AJP 46, 90-93 (1978).
- Paul Ormsby, Viewing the Michelson Interferometer with Ease, TPT 20, 485 (1982).
- Walter Roy Mellen, Interference patterns from circularly polarized light using a Michelson interferometer, AJP 58, 580-581 (1990).
- Jeffrey B. Norman, Phase-conjugate Michelson interferometers for all-optical image processing and computing, AJP 60, 212-220 (1992).
- Selective Experiments in Physics, The Michelson Interferometer, Cenco.
- Palmer, Optics Experiments and Demonstrations, Expt. B4 The Michelson Interferometer, 147-157.
- Wallace A. Hilton, Experiments in Optical Physics, Experiment I-5 MICHELSON INTERFEROMETER: ADJUSTMENT FOR FRINGES AND MEASUREMENT OF DISTANCE, Experiment I-6: MICHELSON INTERFEROMETER: MEASUREMENT OF THE CHANGE IN WAVELENGTH OF TWO SPECTRAL LINES, and Experiment I-7: MICHELSON INTERFEROMETER: INDEX OF REFRACTION.
- Instruction Sheet, Alignment for Michelson Interferometer with White Light.
- Operating Instructions, Quartz Mercury Arc Light source, Cenco No. 087298, Central Scientific Co., Chicago, IL.
- Instruction Manual, Interferometers, Ealing Beck Ltd.
- M3-02: MICHELSON INTERFEROMETER - WHITE LIGHT
- Richard Manliffe Sutton, Demonstration Experiments in Physics, McGraw-Hill Book Company, Inc., 1938 (out of print), Demonstration L-72.
- Willoughby M. Cady, Adjustment of a Michelson Interferometer for Equal Light Paths, AJP 6, 277 (1938).
- Alan C. Traub, A Graphical Demonstration of White Light Interference, AJP 21, 75-82 (1953).
- Eric F. Cave and Louis V. Holroyd, Inexpensive Michelson Interferometer, AJP 23, 61, (1955).
- T. G. Bullen, Notes on an Inexpensive Form of Michelson's Interferometer, AJP 27, 520-521, (1959).
- Alfred Zajac, Henry Sadowski, and Seymour Licht, Real Fringes in the Sagnac and Michelson Interferometers, AJP 29, 669-673 (1961).
- G. Friedmann and R. Vidal, Modification to an Inexpensive Interferometer, AJP 30, 604, (1962).
- Hans Weltin, Light Beats, AJP 30, 653-654, (1962).
- Gary C. Babcock, The "Sagnac" Interferometer, AJP 30, 311, (1962).
- Anonymous, White-Light Interference Fringes, AJP 35(3), XXII, (1967).
- Historical Note on "White-Light Interference Fringes," AJP 35#11, ix (1967).
- Graydon D. Bell and Eldred F. Tubbs, Use of Grating to Find Interferometer White Light Fringes, AJP 37, 273-275 (1969).
- P. A. Young and D. E. O'Connor, White Light Fringes Obtained with the Michelson Interferometer, AJP 38, 1390-1395 (1970).
- J. N. Das, On Production of Circular White Light Fringes with Michelson's Interferometer, AJP 39, 334 (1971).
- Matt Bushner, Instantaneous Multiple Use of Michelson's Interferometer, TPT 15, 238-239, (1977).
- Francis A. Jenkins and Harvey E. White, Fundamentals of Optics (McGraw-Hill Book Company, Inc., New York, 1957) Section 13-11. White-light Fringes, pp. 250-251.
- Michel Cagnet, Maurice Franzon, and Jean Claude Thierr, Atlas of Optical Phenomena (Springer-Verlag, New York, 1962).
- Michel Cagnet, Maurice Francon, and S. Mallick, Atlas of Optical Phenomena, Supplement (Springer-Verlag, New York, 1971), Color Plate 8 (Michelson Interferometer with Candle).
- Selective Experiments in Physics, The Michelson Interferometer, Cenco.
- Palmer, Optics Experiments and Demonstrations, Expt. B4 The Michelson Interferometer, 147-157.
- Physics II Laboratory Manual, Expt IV The Michelson Interferometer, (1968).
- Physics 122 Laboratory Manual, Expt VI the Michelson Interferometer, (1973).
- Instruction Sheet, Alignment for Michelson Interferometer with White Light.
- Operating Instructions, Quartz Mercury Arc Light source, Cenco No. 087298, Central Scientific Co., Chicago, IL.
- Instruction Manual, Interferometers, Ealing Beck Ltd.
- Jeffrey B. Norman, Phase-conjugate Michelson interferometers for all-optical image processing and computing, AJP 60, 212-220 (1992).
- Zhiheng Wang, Eckart Perizonius, and Rainer Roehler, Dynamic color-discrimination ellipses, Optical Engineering 32 #5, 970-973 (1993).
- Javier Romero, Jose A. Garcia, Luis Jiminez del Barco, and E. Hita, Evaluation of color-discrimination ellipsoids in two-color spaces, Journal of the Optical Society of Amewrica 10 #5, 827-837 (1993).
- Thomas E. Kiess and Richard E. Berg, Dominant color reversals and chromaticity cusps in interferometric color mixing, AJP 64, 928-934 (1996).
- M3-03: MICHELSON INTERFEROMETER - MERCURY LIGHT
- Eric F. Cave and Louis V. Holroyd, Inexpensive Michelson Interferometer, AJP 23, 61, (1955).
- T. G. Bullen, Notes on an Inexpensive Form of Michelson's Interferometer, AJP 27, 520-521, (1959).
- G. Friedmann and R. Vidal, Modification to an Inexpensive Interferometer, AJP 30, 604, (1962).
- Hans Weltin, Light Beats, AJP 30, 653-654, (1962).
- Gary C. Babcock, The "Sagnac" Interferometer, AJP 30, 311, (1962).
- Matt Bushner, Instantaneous Multiple Use of Michelson's Interferometer, TPT 15, 238-239, (1977).
- Selective Experiments in Physics, The Michelson Interferometer, Cenco.
- Palmer, Optics Experiments and Demonstrations, Expt. B4 The Michelson Interferometer, 147-157.
- Physics II Laboratory Manual, Expt IV The Michelson Interferometer, (1968).
- Physics 122 Laboratory Manual, Expt VI the Michelson Interferometer, (1973).
- Instruction Sheet, Alignment for Michelson Interferometer with White Light.
- Operating Instructions, Quartz Mercury Arc Light source, Cenco No. 087298, Central Scientific Co., Chicago, IL.
- Instruction Manual, Interferometers, Ealing Beck Ltd.
- Lecture Demonstrations Instruction Sheet: Alignment for Michelson Interferometer with White Light.
- M3-04: MICHELSON INTERFEROMETER - SODIUM LIGHT
- Eric F. Cave and Louis V. Holroyd, Inexpensive Michelson Interferometer, AJP 23, 61, (1955).
- T. G. Bullen, Notes on an Inexpensive Form of Michelson's Interferometer, AJP 27, 520-521, (1959).
- G. Friedmann and R. Vidal, Modification to an Inexpensive Interferometer, AJP 30, 604, (1962).
- Hans Weltin, Light Beats, AJP 30, 653-654, (1962).
- Gary C. Babcock, The "Sagnac" Interferometer, AJP 30, 311, (1962).
- Matt Bushner, Instantaneous Multiple Use of Michelson's Interferometer, TPT 15, 238-239, (1977).
- Selective Experiments in Physics, The Michelson Interferometer, Cenco.
- Palmer, Optics Experiments and Demonstrations, Expt. B4 The Michelson Interferometer, 147-157.
- Physics II Laboratory Manual, Expt IV The Michelson Interferometer, (1968).
- Physics 122 Laboratory Manual, Expt VI the Michelson Interferometer, (1973).
- Instruction Sheet, Alignment for Michelson Interferometer with White Light.
- Operating Instructions, Quartz Mercury Arc Light source, Cenco No. 087298, Central Scientific Co., Chicago, IL.
- Instruction Manual, Interferometers, Ealing Beck Ltd.
- See Wallace A. Hilton, Experiments in Optical Physics, Experiment I-6 MICHELSON INTERFEROMETER: MEASUREMENT OF THE CHANGE IN WAVELENGTH OF TWO SPECTRAL LINES, (Section M2 above).
- M3-05: MICHELSON INTERFEROMETER - COMPONENT MODEL
- None.
- M3-06: MICHELSON INTERFEROMETER - GAS CELL
- Eric F. Cave and Louis V. Holroyd, Inexpensive Michelson Interferometer, AJP 23, 61, (1955).
- T. G. Bullen, Notes on an Inexpensive Form of Michelson's Interferometer, AJP 27, 520-521, (1959).
- G. Friedmann and R. Vidal, Modification to an Inexpensive Interferometer, AJP 30, 604, (1962).
- Hans Weltin, Light Beats, AJP 30, 653-654, (1962).
- Gary C. Babcock, The "Sagnac" Interferometer, AJP 30, 311, (1962).
- Matt Bushner, Instantaneous Multiple Use of Michelson's Interferometer, TPT 15, 238-239, (1977).
- Selective Experiments in Physics, The Michelson Interferometer, Cenco.
- Palmer, Optics Experiments and Demonstrations, Expt. B4 The Michelson Interferometer, 147-157.
- Wallace A. Hilton, Index of Refraction of Air, TPT 6, 146, (1968).
- Instructions for Using the Michelson Interferometer with a Gas Cell.
- Physics II Laboratory Manual, Expt IV The Michelson Interferometer, (1968).
- Physics 122 Laboratory Manual, Expt VI the Michelson Interferometer, (1973).
- Instruction Sheet, Alignment for Michelson Interferometer with White Light.
- Operating Instructions, Quartz Mercury Arc Light source, Cenco No. 087298, Central Scientific Co., Chicago, IL.
- Instruction Manual, Interferometers, Ealing Beck Ltd.
- M3-21: MICROWAVES - MICHELSON INTERFEROMETER
- J. Patrick Polley, A Microwave Interferometer on an Air Track, TPT 31, 144-146 (1993).
- M3-31: INTERFEROMETER MODEL - MOIRE PATTERNS
- None.
- M3-41: FABRY-PEROT INTERFEROMETER - LASER
LIGHT
- Wallace A. Hilton, Construction and Use of a Fabry-Perot Interferometer, AJP 30, 724-726 (1962).
- Wallace A. Hilton, Experiments in Optical Physics, Experiment I-8 Fabry-Perot Etalon.
- Chandrasekhar Roychoudhuri, Demonstrations using a Fabry-Perot. I. Multiple-slit interference, AJP 43, 1054-1056 (1975).
- Chandrasekhar Roychoudhuri, Demonstrations using a Fabry-Perot. II. Laser modes display, AJP 43, 1057-1059 (1975).
- Joseph C. Amato, Roger E. Williams, and Hugh Helm, An inexpensive, easy to build Fabry-Perot interferometer and its use in the introductory laboratory, AJP 59, 992-994 (1991).
- J. J. Monzon and L. L. Sanchez-Soto, On the concept of absorption for a Fabry-Perot interferometer, AJP 64, 156-163 (1996).
- Instruction manual for Beck Interferometers.
- M3-42: FABRY-PEROT INTERFEROMETER - SODIUM
LIGHT
- None.
M4: THIN FILM INTERFERENCE
- M4-01: INTERFERENCE IN THIN MICA SHEET - PROJECTION
- Directions for Use, 47107 Mica Sheet for Pohl's Experiment on Interference, Leybold.
- David C. Brown and Tovie L. Rome, A Simple Demonstration of the Interference and Coherence of Light, AJP 40, 470-471 (1972).
- Stanley K. Derby and Haym Kruglak, Interference fringes with a laser, AJP 64, 508 (1996).
- M4-02: NEWTON'S RINGS - PROJECTION
- Syed Ziauddin, Newton's Rings, TPT 10, 477, (1972).
- A. F. Leung and Jiyeon Ester Lee, Newton's Rings: A Classroom Demonstration With a He-Ne Laser, AJP 59, 662-664 (1991).
- Michael Belsley, Comment on "Newton's Rings: A Classroom Demonstration With a He-Ne Laser [AJP 59, 662-664 (1991)], AJP 60, 1044-1045 (1992).
- Kai-yin Cheung and Se-yuen Mak, Apparatus for Teaching Physics: Giant Newton's Rings, TPT 34, 35-37 (1996).
- M4-03: WEDGE INTERFERENCE FILTER
- Uri Oppenheim and Joseph H. Jaffe, Interference in an Optical Wedge, AJP 24, 610-615, (1956).
- M4-04: INTERFERENCE BETWEEN GLASS PLATES
- G. P. Sastry and R. S. Saraswat, Localization of fringes by the pair of images method: Wedge fringes versus Newton's rings, AJP 58, 595-598
(1990).
- M4-11: ANTI-REFLECTIVE COATING
- None.
- M4-12: DICHROIC FILTERS
- Information and Instructions, Dichroic Filters, Edmund Scientific Co., Barrington, NJ.
- M4-13: MICROWAVES - INTERFERENCE BY DIELECTRIC FILM
- None.
- M4-21: SOAP FILM INTERFERENCE - SIMPLE LARGE VERSION
- David Lovett, Demonstrating Science with Soap Films, 204 pp., Institute of Physics Publishing, Philadelphia, 1994.
- Goran Ramme, Colors on Soap Films - An Interference Phenomenon, TPT 28, 479-480 (1990).
- M4-22: SOAP FILM INTERFERENCE - PROJECTION
- None.
- M4-23: SOAP FILM INTERFERENCE - ROTATING HEMISPHERE
- L. J. Bruner, Stable Black Soap Films, AJP 53, 177-178, (1985).
- Sears, Optics, 203-297, (1949).
- Sears and Zemansky, University Physics, 600.
- David A. Katz, Chemistry in the Toy Store, Soap Bubbles, (1988).
- M4-24: SOAP FILM INTERFERENCE - CORRIDOR DISPLAY
- None.
- M4-31: IRIDESCENT BOTTLE
- None.
M5: INTERFERENCE AND DIFFRACTION ESOTERICA
- M5-01: LASER DIFFRACTION - TWO DIMENSIONAL GRATINGS
- None.
- M5-02: LASER DIFFRACTION - MESHES
- None.
- M5-03: LASER DIFFRACTION - OPTICAL CRYSTALS
- D. de Fontaine, K. A. Jackson, and C. E. Miller, Optical Diffraction from a Two-Dimensional Array of Spheres, AJP 37, 789-792 (1969).
- E. Hecht, Symmetries in Fraunhofer Diffraction, AJP 40, 571-575 (1972).
- Ronald Bergsten, Diffracion by Optical Crystals, Pasco Scientific manual accompanying set of optical crystals.
- Ronald Bergsten, Optical
Crystals, AJP 42, 91-99 (1974).
- Se-yeun Mak, Gratings for Simulation of Laue Crystal Diffraction, TPT 32, 539-541 (1994).
- M5-04: LASER DIFFRACTION - EXOTIC ARRAYS
- Richard B. Hoover, Diffraction Plates for Classroom Demonstrations, AJP 37, 871-876 (1969).
- Dieter G. Ast, Optical Simulation of the Origin of Contrast in the Electron Microscope, AJP 39, 1164-1168 (1971).
- Michael J. Moloney and Wilkison Meeks, Experiment in Fraunhofer Diffraction Using a Triangular Aperture, AJP 42, 696-698 (1974).
- Raymond G. Wilson, Sean M. McCreary, and Jeffrey L. Thompson, Optical transformations in three-space: Simulations with a PC, AJP 60, 49-56 (1992).
- Jun Uozumi, Kai-Erik Peiponen, Markku Savolainen, Raimo Silvennoinen, and Toshimitsu Asakura, Demonstration of diffraction by fractals, AJP 62, 283-285 (1994).
- George W. Goth, Measuring the Sizes ob Biological Samples by Diffraction, TPT 33, 556-557 (1995).
- Benjamin S. Perkalskis and J. Reuben Freeman, Demonstrating crystal optics using microwaves on wood targets, AJP 63, 762-764 (1995).
- M5-11: LASER DIFFRACTIONS - PIN POINT
- Gordon R. Gore, Diffraction Photographs with a Laser Pointer, TPT 32, 174-175 (1994).
- M5-12: LASER DIFFRACTIONS - RAZOR EDGE
- None.
- M5-21: LASER INTERFERENCE - FRESNEL MIRROR
- None.
- M5-22: LASER INTERFERENCE - LLOYD'S MIRROR
- None.
- M5-23: LLOYD'S MIRROR - WHITE LIGHT
- Lecture Demonstrations Reference Sheet.
- M5-24: LASER INTERFERENCE - FRESNEL'S BIPRISM
- J. J. Veit and D. J. Solarek, Interference fringes using a Fresnel biprism and a laser, TPT 13, 413-414 (1975).
- M5-25: FRESNEL BIPRISM - WHITE LIGHT
- None.
- M5-26: LASER INTERFERENCE - FRONT AND REAR LENS SURFACES
- Michael J. Moloney, Laser-Lens Demonstration of Interference Rings, AJP 42, 411-412 (1974).
- Y. P. Hwu, Interference rings by multiple internal reflections, TPT 18, 531 (1980).
- M5-31: FRAUNHOFER DIFFRACTION AND SPATIAL FILTERING - VERS 1
- B. J. Pernick, An Optimum Lens Configuration for Optical Spatial Filtering, AJP 39, 959-960 (1971).
- I. Juvells, S. Vallmitjana, A. Carnicer, and J. Campos, The role of amplitude and phase of the Fourier transform in the digital image processing, AJP 59, 744-748 (1991).
- M5-32: FRAUNHOFER DIFFRACTION AND SPATIAL FILTERING - VERS 2
- None.
- M5-33: FRAUNHOFER DIFFRACTION AND SPATIAL FILTERING - VERS 3
- None.
- M5-41: SCHLIEREN IMAGES - CONVECTION CURRENTS
- Wallace A. Hilton, Schlieren Apparatus, TPT 10, 36, (1972).
- M5-42: SCHLIEREN IMAGES - CONVECTION CURRENTS - TV
- None.
- M5-43: SCHLIEREN EFFECT - WHITE LIGHT
- None.
- M5-44: DARK FIELD IMAGES
- None.
- M5-51: OPTICAL TRANSFER FUNCTION - DEP ON SPATIAL FREQ
- Judith C. Brown, Fourier Analysis and Spatial Filtering, AJP 39, 797-801 (1971).
- Randall D. Peters, Fourier transform construction by vector graphics, AJP 60, 439-441 (1992).
M6: HOLOGRAMS
- M6-01: HOLOGRAM - LASER LIGHT - VOLKSWAGEN
- Information and Instruction: HOLOGRAMS, Edmund Scientific Co., Barrington, NJ.
- Information and Instruction: 360 degree Hologram s.n. 71, 101, Edmund Scientific Co., Barrington, NJ.
- Lecture Demonstration Design Sketches.
- Winston E. Kock, Sound Visualization and Holography, TPT 13, 14-22 (1975).
- Thomas C. Altman, Holography and Interferometry, TPT 30, 220-223 (1992).
- Thomas D. Rossing, Holographic Interferometry of Vibrating Objects, TPT 330, 219 (1992).
- Dale W. Olson, Real and Virtual Images Using a Classroom Hologram, TPT 30, 202-208 (1992).
- A. E. Macgregor, Computer generated holograms from dot matrix and laser printers, AJP 60, 839-846 (1992).
- Seymour Trester, Computer simulated holography and computer generated holograms, AJP 64, 472-481 (1996).
- M6-02: HOLOGRAM - LASER LIGHT - THE SCIENTIST
- None.
- M6-03: HOLOGRAM - LASER LIGHT - MISC INDIVIDUAL VIEWING
- None.
- M6-11: HOLOGRAM - MULTIPLEX -BASEBALL
- Description of Multiplex Holography, the Multiplex Co., San Francisco, CA.
- Assembly Instructions for Multiplex Hologram, Multiplex Co., San Francisco, CA.
- Holograms, Holograms (How they work), Prodigy (4/12/96).
- M6-12: HOLOGRAM - MULTIPLEX - THE KISS
- Description of Multiplex Holography, the Multiplex Co., San Francisco, CA.
- Assembly Instructions for Multiplex Hologram, Multiplex Co., San Francisco, CA.
- Holograms, Holograms (How they work), Prodigy (4/12/96).
- M6-13: HOLOGRAM - MULTIPLEX - KING KONG
- Description of Multiplex Holography, the Multiplex Co., San Francisco, CA.
- Assembly Instructions for Multiplex Hologram, Multiplex Co., San Francisco, CA.
- Holograms, Holograms (How they work), Prodigy (4/12/96).
- M6-21: HOLOGRAM -REFLECTION - MARCHING BAND
- None.
- M6-22: HOLOGRAM - REFLECTION - ORRERY
- Instruction Sheet, Deep Scene Laser Transmission, Hologram by Integraf, Lake Forest, IL.
- M6-23: HOLOGRAM - REFLECTION - OWLS
- None.
- M6-24: HOLOGRAM -REFLECTION - WEREWOLF
- None.
M7: POLARIZATION AND SCATTERING
- M7-01:MICROWAVES - POLARIZATION
- Stephen C. Yerim, Microwaves Polarization, TPT 19, 396, 401, (1981).
- Operating Instructions, 12 cm Microwave Polarization Detector, CENCO No. 080429-005.
- M7-02: RADIOWAVES - POLARIZATION
- None.
- M7-03: POLAROIDS AND GOOSENECK LAMP
- Hollis N. Todd, Polarization of Light - Basic Theory and Experiment, Bausch & Lomb Inc. (1970).
- H. Richard Crane, How Things Work: How Does the Honeybee Sense Polarization?, TPT 27, 504-505 (1989).
- Bill Reid, Haidinger's Brush, TPT 28, 598 (1990).
- Peter N. Henriksen, Linear Polarization Demonstration/Puzzle, TPT 32, 425 (1994).
- M7-04: MALUS' LAW
- Marcelo Alonso, A Simple Proof of Malus' Theorem in Geometrical Optics, AJP 16, 462-463, (1948).
- A. F. Leung, The Law of Malus Using Polaroid Polarizers, TPT 18, 612-614, (1980).
- J. F. Borges da Silva and J. A. Brandao Faria, A simple solution to obtain linearly polarized light from a randomly polarized He-Ne laser, AJP 59, 757-759 (1991).
- Lecture Demonstration Formulas and Simple Data for Malus' Law Demonstration.
- M7-05: ROPE AND COOKIE COOLERS
- None.
- M7-06: ROPE WAVE GENERATOR - POLARIZATION
- None.
- M7-07: CROSSED POLAROIDS - E FIELD COMPONENTS
- None.
- M7-11:OPTICAL BOARD - BREWSTER'S ANGLE
- W. W. Sleator, The Elliptical Polarization of Light by Total Reflection, AJP 3, 1-7, (1935).
- M7-12: BREWSTER'S ANGLE - POLAROID AND TWO REFLECTORS
- None.
- M7-13: BREWSTER'S ANGLE - SEMICIRCULAR LUCITE SLAB
- None.
- M7-14: BREWSTER'S WINDOW
- Marcelo Alonso, A Simple Proof of Malus' Theorem in Geometrical Optics, AJP 16, 462-463, (1948).
- Juan J. Morales and Maria J. Nuevo, A general method for calculating reflection and transmission coefficients in multiple slabs, AJP 59, 1140-1143 (1991).
- M7-15: LIINEAR AND ELLIP POLARIZATION - REFL FROM DIEL AND COND
- None.
- M7-16: REFLECTION OF POLARIZED LIGHT FROM CONDUCTOR AND DIELECTRIC
- None.
- M7-17: REFLECTION OF LIGHT FROM DIELECTRIC AND CONDUCTOR
- Jonathan P. Dowling and Julio Gea-Banacloche, The specular reflection of light off light, AJP 60, 28-34 (1992).
- M7-31: TYNDALL'S EXPERIMENT - COLLOIDAL SUNSET
- Haym Kruglak, A Simplified Sunset Demonstration, TPT 11, 559, (1973).
- Marla H. Moore, Blue Sky and Red Sunsets, TPT 12, 436-437, (1974).
- Jay S. Huebner, Tricks of the Trade: "A Golden Oldie" - Projecting a Sunset, TPT 32, 147 (1994).
- E-Qing Zhu and Se-yeun Mak, Demonstrating Colors of Sky and Sunset, TPT 32, 420-421 (1994).
- Sutton, Demonstration Experiments in Physics, L-46 Scattering of Light, 387-388.
- Chemical Demonstrations, 81. A Chemical Sunset, 130.
- Lecture Demonstrations Instructions Sheet for Light Scattering Experiment.
- Lecture Demonstrations Record Form.
- M7-32: TRANSVERSE NATURE OF LIGHT
- Lecture Demonstrations Instructions for Preparation of Soap Solution for Demo: Transverse Nature of Light.
- Lecture Demonstrations Record Form.
- M7-33: DEPOLARIZATION BY SCATTERING - WAX PAPER
- None.
- M7-34: ROTATION OF POLARIZATION - POLAROID AND WAX PAPER
- None.
- M7-41: SCATTERING OF LASER BEAM
- None.
M8: OPTICAL ACTIVITY AND BIREFRINGENCE
- M8-01: POLAROIDS AND KARO SYRUP
- W. P. Healy and E. A. Power, Dispersion Relations for Optically Active Media, AJP 42, 1070-1074 (1974).
- R. M. Peterson, Comparison of two theories of optical activity, AJP 43, 969-972 (1975).
- George Freier and B. G. Eaton, Optical Activity Demonstration, AJP 43(11), 939, (1975).
- Zigmund Peacock, Rotation of the Electric Field in Polarized Light: A Demonstration, PIRA News, Volume 6, Number 2, October 1991.
Richard Feynman, The Feynman Lectures in Physics, Volume 1, Section 33-5 Optical Activity.
- M8-02: OPTICAL ACTIVITY - GLASS IN KARO SYRUP TANK
- Lecture Demonstrations Design Sketches and Calculations.
- M8-03: OPTICAL ACTIVITY IN KARO SYRUP CYLINDERS
- None.
- M8-04: OPTICAL ACTIVITY IN KARO SYRUP TANK
- G. R. Davies, Polarized Light Corridor Demonstrations, TPT 28, 464-467 (1990).
- M8-05: POLAROIDS AND KARO SYRUP - SPECTRUM
- None.
- M8-06: SUGAR IN SOLUTION IN TUBE - BARBER POLE
- None.
- M8-11: OPTICAL ACTIVITY - ROSE AND BUTTERFLY
- S. Chandrasekhar, Simple Model for Optical Activity, AJP 24, 503 - 506, (1956).
- Bill Reid, Colored Flag by Double Refraction, TPT 32, 38-39 (1994).
- M8-12: POLARIZED COLOR SLIDE SET
- None.
- M8-13: POLAGE
- Lynn Pyne, Moving Pictures - A Polarized View, Southwest Art, 84, (June 1985).
- Supplementary Information Sheet: Description of the Polage.
- Information and Polages and Austine Wood, The Rachael Collection.
- Polage Instructions.
- M8-14: PHOTOELASTICITY
- Stephen H. Burns and Myron A. Jeppesen, Photographing and Projecting Crystal Patterns in Convergent Polarized Light, AJP 28, 774-776, (1960).
- M8-21: CALCITE BIREFRINGENCE
- M. Parker Givens and Wendell V. Discher, Comments on the Optics of Birefringent Crystals, AJP 22, 379-384, (1954).
- Werner B. Schneider, A surprising optical property of Plexiglas rods - An unusual approach to birefringence, AJP 59, 1086-1087 (1991).
- Lecture Demonstration List for Ordering Calcite Crystals.
- Original Patterns for Viewing Through Calcite Crystal.
- M8-22: NICOL PRISM
- None.
- M8-31: LIQUID CRYSTALS
- Renate J. Ondris-Crawford, Gregory P. Crawford, and J. William Doane, Resource letter: LC-1: Liquid crystals: Physics and applications, AJP 63, 781-788 (1995).
- James L. Fergason, Liquid Crystals, Scientific American, August 1964.
- Glenn H. Brown, Liquid Crystals and Their Roles in Inanimate and Animate Systems, American Scientist, Volume 60.
- Wayne E. Woodmansee, Cholesteric Liquid Crystals And Their Application to Thermal Nondestructive Testing, from Materials Evaluation, October 1966.
- Lewis Beebe Leder, Rotary Sense and Pitch of Cholesteric Liquid Crystals, Journal of Chemical Physics, Volume 55, Number 6, 15 September 1971.
- Frank L. Pedrotti and Peter Bandettini, Faraday rotation in the undergraduate advanced laboratory, AJP 58, 542-545 (1990).
- Eliot M. Briggs and Richard W. Peterson, Liquid cell Faraday modulator, AJP 61, 186-187 (1993).
- R. D. Edge, Thermal Conductivity and Liquid Crystal Thermometers, TPT 31, 412-413 (1993).
- Thomas M. Ciferno, Renate J. Ondris-Crawford, and Gregory P. Crawford, Inexpensive Electrooptic Experiments on Liquid Crystal Displays, TPT 33, 104-110 (1995).
- W. K. Koo, C. S. Chong, and Ben K. Merican, Polarized light, Polaroid and your digital watch, AJP 63, 184-185 (1995).
- Peter J. Collings, Liquid crystal displays, AJP 63, 1044-1048 (1995).
M9: ELLIPTICAL POLARIZATION
- M9-01: ELLIPTICAL POLARIZATION - MECHANICAL MODEL
- None.
- M9-02: CIRCULAR POLARIZATION - ROTATING VECTOR MODEL
- None.
- M9-03: CIRCULAR POLARIZATION - STICK MODEL
- Paul A. Bender, Wooden Electromagnetic Waves, AJP 53, 279-280, (1985).
- M9-11: MICROWAVES - ELLIPTICAL POLARIZATION
- None.
- M9-21: QUARTER WAVE PLATE
- Wallace A. Hilton, Demonstration Model of Retardation Plates in Polarized Light, AJP 21, 466-467, (1953).
- J. G. Winans, Demonstration with Half-Wave Plates, AJP 21, 170-179, (1953).
- M9-22: HALF WAVE PLATE
- Wallace A. Hilton, Demonstration Model of Retardation Plates in Polarized Light, AJP 21, 466-467, (1953).
- J. G. Winans, Demonstration with Half-Wave Plates, AJP 21, 170-179, (1953).
- M9-23: CIRCULATORY POLARIZED LIGHT
- P. C. B. Fernando and S. Samarasinghe, A technique for experimentally
observing the polarization ellipse, AJP 64, 565-568 (1996).
- M9-31: OPTICAL RING SIGHT
- Crystals and Light: An Introduction to Optical Crystallography, Appendix I: How They Got Rid of the Black Cross in the Optical Ring Sight, pp. 147-149, D. Van Nostrand Company, Inc.