Optical constants of various chromites as determined by Kramers–Kronig analysis

M. M. Tayeb Anki; Benoit Lefez

doi:10.1364/AO.35.001399

Applied Optics
Vol. 35,
Issue 9,
pp. 1399-1403
(1996)
•https://doi.org/10.1364/AO.35.001399

Optical constants of various chromites as determined by Kramers–Kronig analysis

M. M. Tayeb Anki and Benoit Lefez

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M. M. Tayeb Anki and Benoit Lefez, "Optical constants of various chromites as determined by Kramers–Kronig analysis," Appl. Opt. 35, 1399-1403 (1996)

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Abstract

The infrared optical constants of a few different powders of chromites, XCr₂O₄ (where X is Fe, Ni, Mg, Zn, or Cu), have been determined by Kramers–Kronig analysis of their infrared transmission and reflection spectra. The knowledge of these constants allows one to predict the different thin-layer infrared reflection spectra and to compare them, when it is possible, with the reflection spectra calculated with n and k obtained by the use of the classical oscillator method.

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Sample	Method	Mode	FeCr₂O₄	NiCr₂O₄	CuCr₂O₄	ZnCr₂O₄	MnCr₂O₄	Ref.
Monocrystal	OF	TO				186 370 509 621		12
(reflection spectra)		LO				194 376 575 711
			No literature data	No literature data	No literature data		No literature data
	KK	TO				186 372 506 624
		LO				194 377 574 711
Pressed pellets	OF	TO	170 374 495 614					12
(reflection spectra)		LO	184 376 540 691		No literature data
	KK	TO	170 375 495 608	299 370 484 610		188 374 527 633	193 376 473 602
		LO	183 379 550 693	301 373 537 692		194 378 570 706	198 383 540 683
Pressed pellets	KK	TO	374 500 610	374 498 608	370 520 560 604	370 512 624	382 490 606
(transmission spectra)								This paper
		LO	378 548 680	386 534 696	374 532 568 674	376 574 712	386 541 690

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Applied Optics