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).
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.
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
Anonymous, White-Light Interference Fringes, AJP 35(3), XXII, (1967).
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).
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).
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).
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.

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.