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References

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  1. W. Haidinger, Pogg. Ann. 77, 219 (1849).
  2. C. Fabry and A. Perot, Ann. de chim. et de phys. 12, 459 (1897).
  3. A. H. Pfund, Phys. Rev. 42, 581 (1932).
    [Crossref]
  4. A. Schuster, Theory of Optics (Edward Arnold, London, 1909);A. Johannsen, Manual of Petrographic Methods (McGraw-Hill Book Company, 1918).

1932 (1)

A. H. Pfund, Phys. Rev. 42, 581 (1932).
[Crossref]

1897 (1)

C. Fabry and A. Perot, Ann. de chim. et de phys. 12, 459 (1897).

1849 (1)

W. Haidinger, Pogg. Ann. 77, 219 (1849).

Fabry, C.

C. Fabry and A. Perot, Ann. de chim. et de phys. 12, 459 (1897).

Haidinger, W.

W. Haidinger, Pogg. Ann. 77, 219 (1849).

Perot, A.

C. Fabry and A. Perot, Ann. de chim. et de phys. 12, 459 (1897).

Pfund, A. H.

A. H. Pfund, Phys. Rev. 42, 581 (1932).
[Crossref]

Schuster, A.

A. Schuster, Theory of Optics (Edward Arnold, London, 1909);A. Johannsen, Manual of Petrographic Methods (McGraw-Hill Book Company, 1918).

Ann. de chim. et de phys. (1)

C. Fabry and A. Perot, Ann. de chim. et de phys. 12, 459 (1897).

Phys. Rev. (1)

A. H. Pfund, Phys. Rev. 42, 581 (1932).
[Crossref]

Pogg. Ann. (1)

W. Haidinger, Pogg. Ann. 77, 219 (1849).

Other (1)

A. Schuster, Theory of Optics (Edward Arnold, London, 1909);A. Johannsen, Manual of Petrographic Methods (McGraw-Hill Book Company, 1918).

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Figures (8)

F. 1
F. 1

t = 0.07 mm, f = 130 mm; shows intersecting interference fringes.

F. 2
F. 2

Sketch of apparatus.

F. 3
F. 3

t = 0.07 mm, f = 130 mm. Half (a) taken in polarized light; (b) taken in unpolarized light. This shows that there are two sets of fringes polarized at right angles to one another.

F. 4
F. 4

t = 0.13 mm, f = 68 mm. The “moiré” bands due to the intersections of two sets of fringes are shown here.

F. 5
F. 5

A is plate of bare mica; B is plate of silvered mica. Optical length of path 1,1 (producing interference fringes) same as that of path 2,2 (producing polarization bands).

F. 6
F. 6

t = 0.095 mm (silvered mica); t = 0.095 mm (unsilvered mica); f = 68 mm. This shows the coincidence of the moiré bands with the bright polarization bands.

F. 7
F. 7

An enlargement of Fig. 6 near one of the “eyes” showing coincidence of moiré bands with bright polarization bands.

F. 8
F. 8

t = 0.19 mm (clear mica); t = 0.19 mm (clear mica); f = 68 mm. Two “crossed” mica plates mounted between “crossed” Polaroids and photographed in convergent light—showing complex polarization bands.