Optimal design of dual-wavelength multiple beam splitters

Shaomin Zhou; Pochi Yeh; Rashit Nabiev

doi:10.1364/OL.20.000109

Optics Letters
Vol. 20,
Issue 1,
pp. 109-111
(1995)
•https://doi.org/10.1364/OL.20.000109

Optimal design of dual-wavelength multiple beam splitters

Shaomin Zhou, Pochi Yeh, and Rashit Nabiev

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Shaomin Zhou, Pochi Yeh, and Rashit Nabiev, "Optimal design of dual-wavelength multiple beam splitters," Opt. Lett. 20, 109-111 (1995)

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Abstract

Dual-wavelength multiple beam splitters (DWMBS’s) are designed to split a dual-wavelength beam into two beam arrays, one for each of the two wavelengths. These two beam arrays may have either the same dimension and structure or different dimensions and structures, depending on applications. We present results of our computer simulations for a 1 × 5 DWMBS that exhibits one-dimensional diffraction efficiency and uniformity of 83.8% and 98.4%, respectively, for a wavelength of 514.5 nm and of 85.1% and 99.0%, respectively, for a wavelength of 632.8 nm.

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Type	Structure	Expected Orders	Diffraction Pattern		1-D Efficiency		1-D Non Uniformity
			514.5nm	632.8nm	514.5nm	632.8nm	514.5nm	632.8nm
	X = (.0,.401,.66,1.0)
2×2	H = (.74,.0,.3)	1,−1	1st: 43.79%	44.24%	87.59%	88.49%	.00%	.00%
	X = (.0,.395,.876,1.0)		0th: 28.92%	28.91 %
3×3	H = (.0,.36,1.142)	1,0,−1	1st: 28.90%	28.94%	86.72%	86.78%	.03%	.11%
			0th: 16.71%	16.94%
5×5	X = (.0,.321,.591,1.0)	2,1,0,−1,−2	1st: 16.63%	17.10%	83.76%	85.11%	1.56%	1.00%
	H = (.0,.641,.495)		2nd: 16.89%	16.99%
	X = (.0,.331,.462, .604,1.0)		0th: 12.51%	12.83%
7×7		3,2,1,0,−1,−2,−3	1st: 12.22%	12.94%	87.98%	88.85%	6.21%	5.04%
	H = (.248,−029, .0,.756)		2nd: 12.52%	12.77%
			3rd: 13.00%	12.30%
5×5
(514.5nm)	X = (.0,.321,.591,1.0)	2,1,0,−1,−2	0th: 16.45%	1.91 %
4×4	H = (.0,.641,.495)	2,1,−1,−2	1st: 16.52%	19.06%	82.47%	76.46%	.43%	.06%
(632.8nm)			2nd: 16.49%	19.05%
3×3	X = (.0,.129,.414, .692,1.0)
(514.5nm)		2,0,−2	0th: 27.29%	17.12%
5×5	H = (.852,.0,.671, 1.128)	2,1,0,−1,−2	1st: 1.81%	17.20%	81.32%	86.07%	1.03%	.87%
(632.8nm)			2nd: 27.01%	17.27%

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Optics Letters