We describe an interferometric technique based on temperature-dependent optical path length changes in a thin slab of transparent materials, suitable for measuring the thermal coefficient of refractive index. This technique allows an accurate determination of the fringe shift corresponding to a change in the sample temperature, by means of a two fringe pattern Fourier-transform-based processing algorithm for phase retrieval. The principle of measurement of the method and its applications to the measurements of the thermo-optic coefficients of some commercial glasses are presented and discussed.
An interferometric technique based on Fourier fringe analysis for measuring the thermo-optic coefficients of transparent materials
S De Nicola;A Finizio;G Pierattini
1999
Abstract
We describe an interferometric technique based on temperature-dependent optical path length changes in a thin slab of transparent materials, suitable for measuring the thermal coefficient of refractive index. This technique allows an accurate determination of the fringe shift corresponding to a change in the sample temperature, by means of a two fringe pattern Fourier-transform-based processing algorithm for phase retrieval. The principle of measurement of the method and its applications to the measurements of the thermo-optic coefficients of some commercial glasses are presented and discussed.File in questo prodotto:
Non ci sono file associati a questo prodotto.
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
