Question

A plane polarized light is incident on a polariser with its pass axis by entrance 360

Answer 1

Linear Polarizer Principles

Polarizer and Retarder References:

1. T. Baur and S. McClain, “Polarization Issues in Optical Design”

in Optical System Design, edited by Robert Fischer, (SPIE

press, McGraw-Hill, 2008), Chap 19.

2. J.M. Bennett, “Polarization,” in Handbook of Optics, edited by

M. Bass, (McGraw-Hill, New York, 1995), Vol. I, Chap. 5; J.A.

Dobrowolski, “Optical Properties of Films and Coatings,”

ibid., Vol. I, Chap. 42; J.M.Bennett, “Polarizers,” ibid., Vol. II,

Chap. 3; S. Wu, “Liquid Crystals,” ibid., Vol. II, Chap. 14.

3. D. Clarke and J.F. Grainger, Polarized Light and Optical

Measurement, (Pergamon Press, New York, 1971).

4. D.S. Kliger, J.W. Lewis and C.E. Randall, Polarized Light in

Optics and Spectroscopy, (Academic Press, San Diego, Calif.,

1990).

5. W.A. Shurcliff, Polarized Light: Production and Use, (Harvard

University Press, Cambridge, Mass., 1966).

6. D.A. Holmes, “Exact Theory of Retardation Plates,” J.Opt. Soc.

Am. 54, 1115 (1964).

7. P.D. Hale and G.W. Day, “Stability of Birefringent Linear

Retarders (Waveplates),” Appl. Opt. 27 (24), 5146 (1988).

8. D. Malacara, Optical Shop Testing, (John Wiley and Sons, New

York, 1978).

9. G. Love, “Wave-front Correction and Production of Zernike

Modes with a Liquid-Crystal Spatial Light Modulator”, Appl.

Opt. 36 (7), 1517 (1997).