Optical constants modelling in silicon nitride membrane transiently excited by EUV radiation

R. Mincigrucci; D. Naumenko; L. Foglia; I. Nikolov; E. Pedersoli; E. Principi; A. Simoncig; M. Kiskinova; C. Masciovecchio; F. Bencivenga; F. Capotondi

doi:10.1364/OE.26.011877

Optical constants modelling in silicon nitride membrane transiently excited by EUV radiation

R. Mincigrucci, D. Naumenko, L. Foglia, I. Nikolov, E. Pedersoli, E. Principi, A. Simoncig, M. Kiskinova, C. Masciovecchio, F. Bencivenga, F. Capotondi

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Abstract

We hereby report on a set of transient optical reflectivity and transmissivity measurements performed on silicon nitride thin membranes excited by extreme ultraviolet (EUV) radiation from a free electron laser (FEL). Experimental data were acquired as a function of the membrane thickness, FEL fluence and probe polarization. The time dependence of the refractive index, retrieved using Jones matrix formalism, encodes the dynamics of electron and lattice excitation following the FEL interaction. The observed dynamics are interpreted in the framework of a two temperature model, which permits to extract the relevant time scales and magnitudes of the processes. We also found that in order to explain the experimental data thermo-optical e ects and inter-band filling must be phenomenologically added to the model.

Original language	English
Pages (from-to)	11877-11888
Number of pages	12
Journal	Optics Express
Volume	26
Issue number	9
DOIs	https://doi.org/10.1364/OE.26.011877
Publication status	Published - 30 Apr 2018
Externally published	Yes

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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title = "Optical constants modelling in silicon nitride membrane transiently excited by EUV radiation",

abstract = "We hereby report on a set of transient optical reflectivity and transmissivity measurements performed on silicon nitride thin membranes excited by extreme ultraviolet (EUV) radiation from a free electron laser (FEL). Experimental data were acquired as a function of the membrane thickness, FEL fluence and probe polarization. The time dependence of the refractive index, retrieved using Jones matrix formalism, encodes the dynamics of electron and lattice excitation following the FEL interaction. The observed dynamics are interpreted in the framework of a two temperature model, which permits to extract the relevant time scales and magnitudes of the processes. We also found that in order to explain the experimental data thermo-optical e ects and inter-band filling must be phenomenologically added to the model.",

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T1 - Optical constants modelling in silicon nitride membrane transiently excited by EUV radiation

AU - Mincigrucci, R.

AU - Naumenko, D.

AU - Foglia, L.

AU - Nikolov, I.

AU - Pedersoli, E.

AU - Principi, E.

AU - Simoncig, A.

AU - Kiskinova, M.

AU - Masciovecchio, C.

AU - Bencivenga, F.

AU - Capotondi, F.

PY - 2018/4/30

Y1 - 2018/4/30

N2 - We hereby report on a set of transient optical reflectivity and transmissivity measurements performed on silicon nitride thin membranes excited by extreme ultraviolet (EUV) radiation from a free electron laser (FEL). Experimental data were acquired as a function of the membrane thickness, FEL fluence and probe polarization. The time dependence of the refractive index, retrieved using Jones matrix formalism, encodes the dynamics of electron and lattice excitation following the FEL interaction. The observed dynamics are interpreted in the framework of a two temperature model, which permits to extract the relevant time scales and magnitudes of the processes. We also found that in order to explain the experimental data thermo-optical e ects and inter-band filling must be phenomenologically added to the model.

AB - We hereby report on a set of transient optical reflectivity and transmissivity measurements performed on silicon nitride thin membranes excited by extreme ultraviolet (EUV) radiation from a free electron laser (FEL). Experimental data were acquired as a function of the membrane thickness, FEL fluence and probe polarization. The time dependence of the refractive index, retrieved using Jones matrix formalism, encodes the dynamics of electron and lattice excitation following the FEL interaction. The observed dynamics are interpreted in the framework of a two temperature model, which permits to extract the relevant time scales and magnitudes of the processes. We also found that in order to explain the experimental data thermo-optical e ects and inter-band filling must be phenomenologically added to the model.

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Optical constants modelling in silicon nitride membrane transiently excited by EUV radiation

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