Sub-quarter-wave multilayer coatings with high reflectance in the extreme ultraviolet

Juan I. Larruquert; Ritva A. M. Keski-Kuha

doi:10.1364/AO.41.005398

Applied Optics
Vol. 41,
Issue 25,
pp. 5398-5404
(2002)
•https://doi.org/10.1364/AO.41.005398

Sub-quarter-wave multilayer coatings with high reflectance in the extreme ultraviolet

Juan I. Larruquert and Ritva A. M. Keski-Kuha

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Juan I. Larruquert and Ritva A. M. Keski-Kuha, "Sub-quarter-wave multilayer coatings with high reflectance in the extreme ultraviolet," Appl. Opt. 41, 5398-5404 (2002)

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Abstract

Multilayer coatings with a small number of layers were designed and prepared to provide an increase in normal-incidence reflectance in the extreme ultraviolet compared with the reflectance of available single-layer coatings, namely, SiC, B₄C, and Ir. Multilayers were designed to produce coatings with the highest possible reflectance at 91.2 and at 58.4 nm. At these wavelengths all the materials absorb radiation strongly, but still a reflectance enhancement can be obtained by means of sub-quarter-wave multilayer coatings with two or more different materials. Sub-quarter-wave multilayer coatings based on Al, MgF₂, diamondlike carbon, B₄C, SiC, and Ir showed higher reflectance than single-layer coatings of SiC and B₄C not only at the target wavelength but in a wide band ranging from 50 nm to the 121.6-nm H Lyman-α line. Multilayer coatings suffered some reflectance degradation over time. However, after approximately 80–100 days of aging in a desiccator, the reflectance for the multilayer coatings was greater than for the single-layer coatings.

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Multilayer Coating	λ = 57.9 nm		λ = 92.0 nm		λ = 121.6 nm
Multilayer Coating	n	k	n	k	n	k
SiC			0.632	1.173	0.97	1.64
B₄C	0.5089	0.6818	0.937	1.3805	1.5842	1.7256
DLC			1.358	1.335	1.845	1.117
MgF₂			1.458	0.430	1.74	0.076
Al			0.0408	0.522	0.0424	1.137
Ir	0.95	1.02
Glass	0.833	0.461	1.355	0.752	1.846	0.664

Multilayer Coating	Thickness of Coating Layer (nm)
Multilayer Coating	SiC	B₄C	DLC	MgF₂	Al	Ir
SiC/B₄C	8.3	10.4
SiC/DLC	10.5		9.5
SiC/B₄C/DLC	7.6	4.9	7.6
SiC/B₄C/MgF₂/Al	6.2	6.8		15.0	60
B₄C/DLC		6.8	7.9
B₄C/Ir		7.7				11.4

Multilayer Coating	Reflectance at 92.0 nm				Reflectance at 121.6 nm				Reflectance at 57.9 nm
	Calculated	Measured			Calculated	Measured			Calculated	Measured
	Calculated	Fresh	14 Days Old	80–102 Days Old	Calculated	Fresh	14 Days Old	80–102 Days Old	Calculated	Fresh	14 Days Old	80–102 Days Old
SiC	0.3728	0.370		0.336	0.4095	0.422
SiC/DLC	0.4070	0.395		0.348	0.4239	0.434		0.392
SiC/B₄C	0.4047	0.393	0.341		0.4417	0.428
SiC/B₄C/DLC	0.4135	0.402	0.359	0.351	0.4384	0.439	0.405	0.395
SiC/B₄C/MgF₂/Al	0.4445	0.428	0.375	0.358	0.5042	0.499	0.462	0.451
B₄C	0.3363	0.367	0.341	0.341a	0.3437	0.361	0.347	0.337a	0.2555	0.279
B₄C/DLC	0.3543	0.388	0.369	0.366	0.3489	0.376		0.363	0.3229	0.343b		0.330

Multilayer Coating	λ = 57.9 nm		λ = 92.0 nm		λ = 121.6 nm
Multilayer Coating	n	k	n	k	n	k
SiC			0.632	1.173	0.97	1.64
B₄C	0.5089	0.6818	0.937	1.3805	1.5842	1.7256
DLC			1.358	1.335	1.845	1.117
MgF₂			1.458	0.430	1.74	0.076
Al			0.0408	0.522	0.0424	1.137
Ir	0.95	1.02
Glass	0.833	0.461	1.355	0.752	1.846	0.664

Multilayer Coating	Thickness of Coating Layer (nm)
Multilayer Coating	SiC	B₄C	DLC	MgF₂	Al	Ir
SiC/B₄C	8.3	10.4
SiC/DLC	10.5		9.5
SiC/B₄C/DLC	7.6	4.9	7.6
SiC/B₄C/MgF₂/Al	6.2	6.8		15.0	60
B₄C/DLC		6.8	7.9
B₄C/Ir		7.7				11.4

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Applied Optics