Spatial Coherence in Periodic Systems*

William Streifer

doi:10.1364/JOSA.56.001481

Journal of the Optical Society of America
Vol. 56,
Issue 11,
pp. 1481-1489
(1966)
•https://doi.org/10.1364/JOSA.56.001481

Spatial Coherence in Periodic Systems

William Streifer

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William Streifer, "Spatial Coherence in Periodic Systems*," J. Opt. Soc. Am. 56, 1481-1489 (1966)

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Abstract

The van Cittert–Zernike theorem states that quasimonochromatic light from a spatially incoherent source, propagating in free space, will increase in spatial coherence. Wolf has shown that quasimonochromatic light, which is initially only partially space coherent or even incoherent, may become coherent upon propagating through a periodic system of apertures. In this paper we employ the mode theory of optical resonators and transmission systems to obtain the results of the van Cittert–Zernike theorem and to study the rapidity with which coherence builds up in periodic systems of apertures and confocal lenses. A perturbation calculation for modes in circular geometries with small Fresnel numbers is included.

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ρ	c₀ = 0.125π		c₀ = 0.25π		c₀ = 0.375π		c₀ = 0.5π
ρ	Eq. (10a)	Eq. (22)	Eq. (10a)	Eq. (22)	Eq. (10a)	Eq. (22)	Eq. (10a)	Eq. (22)
0.0	1.0000	1.0000	1.0000	1.0000	1.0000	1.0000	1.0000	1.0000
0.2	0.9992	0.9992	0.9969	0.9969	0.9931	0.9927	0.9877	0.9857
0.4	0.9969	0.9969	0.9877	0.9875	0.9725	0.9713	0.9515	0.9451
0.6	0.9931	0.9931	0.9725	0.9723	0.9388	0.9374	0.8930	0.8843
0.8	0.9877	0.9877	0.9515	0.9517	0.8930	0.8930	0.8152	0.8086
1.0	0.9809	0.9809	0.9249	0.9260	0.8363	0.8395	0.7217	0.7193

n	2	4	6	7	9
Eq. (25)	0.7217	0.9249	0.9661	0.9750	0.9849
Eq. (24)	0.6529	0.8643	0.9599	0.9792	0.9947

n	c₀ = 0.25π		c₀ = 0.5π		c₀ = 2π		c₀ = 4π
n	Eq. (25)	Eq. (24)	Eq. (25)	Eq. (24)	Eq. (25)	Eq. (24)	Eq. (25)	Eq. (24)
2	0.9809	0.9967	0.9249	0.9228
3	0.9914	0.9999	0.9661	0.9841
4			0.9809	0.9970	0.7217	0.5451
8					0.9249	0.7468
12					0.9661	0.8889
16					0.9809	0.9582	0.9249	0.6724
20					0.9877	0.9854
22					0.9898	0.9915
24					0.9914	0.9950
48							0.9914	0.9815
56							0.9937	0.9921
59							0.9943	0.9943
60							0.9945	0.9949

n	c₀ = 0.125π	c₀ = 0.25π	c₀ = 0.5π
1	0.9809	0.9249	0.7217
2	0.9967	0.9228	0.6529
3	0.9982
4	0.9969	0.8643
8	0.9895
16	0.9582

n	c₀ = 0.125π		c₀ = 0.25π		c₀ = 1.0		c₀ = 0.5π		c₀ = 2.0		c₀ = 5.0
n	Eq. (25)	Eq. (33)	Eq. (25)	Eq. (33)	Eq. (25)	Eq. (33)	Eq. (25)	Eq. (33)	Eq. (25)	Eq. (33)	Eq. (25)	Eq. (33)
2	0.9952	0.9998	0.9808	0.9968	0.9720	0.9915	0.9249	0.9237	0.8802	0.8585
3			0.9914	0.9999	0.9862	0.9993	0.9661	0.9864	0.9454	0.9572
4							0.9808	0.9978	0.9720	0.9885
5							0.9877	0.9994
6							0.9914	0.9999
8									0.9922	0.9970
70											0.9994	0.8547

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Journal of the Optical Society of America