Free electron laser stochastic spectroscopy revealing silicon bond softening dynamics

Dario De Angelis; Emiliano Principi; Filippo Bencivenga; Daniele Fausti; Laura Foglia; Yishay Klein; Michele Manfredda; Riccardo Mincigrucci; Angela Montanaro; Emanuele Pedersoli; Jacopo Stefano Pelli Cresi; Giovanni Perosa; Kevin C. Prince; Elia Razzoli; Sharon Shwartz; Alberto Simoncig; Simone Spampinati; Cristian Svetina; Jakub Szlachetko; Alok Tripathi; Ivan A. Vartanyants; Marco Zangrando; Flavio Capotondi

doi:10.1103/PhysRevB.107.214305

Free electron laser stochastic spectroscopy revealing silicon bond softening dynamics

Dario De Angelis, Emiliano Principi, Filippo Bencivenga, Daniele Fausti, Laura Foglia, Yishay Klein, Michele Manfredda, Riccardo Mincigrucci, Angela Montanaro, Emanuele Pedersoli, Jacopo Stefano Pelli Cresi, Giovanni Perosa, Kevin C. Prince, Elia Razzoli, Sharon Shwartz, Alberto Simoncig, Simone Spampinati, Cristian Svetina, Jakub Szlachetko, Alok TripathiIvan A. Vartanyants, Marco Zangrando, Flavio Capotondi

Department of Physics - at Bar-Ilan University

Bar-Ilan University

Research output: Contribution to journal › Article › peer-review

Abstract

Time-resolved x-ray emission/absorption spectroscopy (Tr-XES/XAS) is an informative experimental tool sensitive to electronic dynamics in materials, widely exploited in diverse research fields. Typically, Tr-XES/XAS requires x-ray pulses with both a narrow bandwidth and subpicosecond pulse duration, a combination that in principle finds its optimum with Fourier transform-limited pulses. In this work, we explore an alternative experimental approach, capable of simultaneously retrieving information about unoccupied (XAS) and occupied (XES) states from the stochastic fluctuations of broadband extreme ultraviolet pulses of a free electron laser. We used this method, in combination with singular-value decomposition and Tikhonov regularization procedures, to determine the XAS/XES response from a crystalline silicon sample at the L2,3 edge, with an energy resolution of a few tens of meV. Finally, we combined this spectroscopic method with a pump-probe approach to measure structural and electronic dynamics of a silicon membrane. Tr-XAS/XES data obtained after photoexcitation with an optical laser pulse at 390 nm allowed us to observe perturbations of the band structure, which are compatible with the formation of the predicted precursor state of a nonthermal solid-liquid phase transition associated with a bond softening phenomenon.

Original language	English
Article number	214305
Number of pages	10
Journal	Physical Review B
Volume	107
Issue number	21
DOIs	https://doi.org/10.1103/PhysRevB.107.214305
State	Published - 1 Jun 2023

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.107.214305

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De Angelis, D., Principi, E., Bencivenga, F., Fausti, D., Foglia, L., Klein, Y., Manfredda, M., Mincigrucci, R., Montanaro, A., Pedersoli, E., Pelli Cresi, J. S., Perosa, G., Prince, K. C., Razzoli, E., Shwartz, S., Simoncig, A., Spampinati, S., Svetina, C., Szlachetko, J., ... Capotondi, F. (2023). Free electron laser stochastic spectroscopy revealing silicon bond softening dynamics. Physical Review B, 107(21), Article 214305. https://doi.org/10.1103/PhysRevB.107.214305

@article{9e233417755f4797ba160399f5c3e290,

title = "Free electron laser stochastic spectroscopy revealing silicon bond softening dynamics",

abstract = "Time-resolved x-ray emission/absorption spectroscopy (Tr-XES/XAS) is an informative experimental tool sensitive to electronic dynamics in materials, widely exploited in diverse research fields. Typically, Tr-XES/XAS requires x-ray pulses with both a narrow bandwidth and subpicosecond pulse duration, a combination that in principle finds its optimum with Fourier transform-limited pulses. In this work, we explore an alternative experimental approach, capable of simultaneously retrieving information about unoccupied (XAS) and occupied (XES) states from the stochastic fluctuations of broadband extreme ultraviolet pulses of a free electron laser. We used this method, in combination with singular-value decomposition and Tikhonov regularization procedures, to determine the XAS/XES response from a crystalline silicon sample at the L2,3 edge, with an energy resolution of a few tens of meV. Finally, we combined this spectroscopic method with a pump-probe approach to measure structural and electronic dynamics of a silicon membrane. Tr-XAS/XES data obtained after photoexcitation with an optical laser pulse at 390 nm allowed us to observe perturbations of the band structure, which are compatible with the formation of the predicted precursor state of a nonthermal solid-liquid phase transition associated with a bond softening phenomenon.",

author = "\{De Angelis\}, Dario and Emiliano Principi and Filippo Bencivenga and Daniele Fausti and Laura Foglia and Yishay Klein and Michele Manfredda and Riccardo Mincigrucci and Angela Montanaro and Emanuele Pedersoli and \{Pelli Cresi\}, \{Jacopo Stefano\} and Giovanni Perosa and Prince, \{Kevin C.\} and Elia Razzoli and Sharon Shwartz and Alberto Simoncig and Simone Spampinati and Cristian Svetina and Jakub Szlachetko and Alok Tripathi and Vartanyants, \{Ivan A.\} and Marco Zangrando and Flavio Capotondi",

note = "Publisher Copyright: {\textcopyright} 2023 American Physical Society.",

year = "2023",

month = jun,

day = "1",

doi = "10.1103/PhysRevB.107.214305",

language = "الإنجليزيّة",

volume = "107",

journal = "Physical Review B",

issn = "2469-9950",

publisher = "American Physical Society",

number = "21",

}

De Angelis, D, Principi, E, Bencivenga, F, Fausti, D, Foglia, L, Klein, Y, Manfredda, M, Mincigrucci, R, Montanaro, A, Pedersoli, E, Pelli Cresi, JS, Perosa, G, Prince, KC, Razzoli, E, Shwartz, S, Simoncig, A, Spampinati, S, Svetina, C, Szlachetko, J, Tripathi, A, Vartanyants, IA, Zangrando, M & Capotondi, F 2023, 'Free electron laser stochastic spectroscopy revealing silicon bond softening dynamics', Physical Review B, vol. 107, no. 21, 214305. https://doi.org/10.1103/PhysRevB.107.214305

TY - JOUR

T1 - Free electron laser stochastic spectroscopy revealing silicon bond softening dynamics

AU - De Angelis, Dario

AU - Principi, Emiliano

AU - Bencivenga, Filippo

AU - Fausti, Daniele

AU - Foglia, Laura

AU - Klein, Yishay

AU - Manfredda, Michele

AU - Mincigrucci, Riccardo

AU - Montanaro, Angela

AU - Pedersoli, Emanuele

AU - Pelli Cresi, Jacopo Stefano

AU - Perosa, Giovanni

AU - Prince, Kevin C.

AU - Razzoli, Elia

AU - Shwartz, Sharon

AU - Simoncig, Alberto

AU - Spampinati, Simone

AU - Svetina, Cristian

AU - Szlachetko, Jakub

AU - Tripathi, Alok

AU - Vartanyants, Ivan A.

AU - Zangrando, Marco

AU - Capotondi, Flavio

PY - 2023/6/1

Y1 - 2023/6/1

N2 - Time-resolved x-ray emission/absorption spectroscopy (Tr-XES/XAS) is an informative experimental tool sensitive to electronic dynamics in materials, widely exploited in diverse research fields. Typically, Tr-XES/XAS requires x-ray pulses with both a narrow bandwidth and subpicosecond pulse duration, a combination that in principle finds its optimum with Fourier transform-limited pulses. In this work, we explore an alternative experimental approach, capable of simultaneously retrieving information about unoccupied (XAS) and occupied (XES) states from the stochastic fluctuations of broadband extreme ultraviolet pulses of a free electron laser. We used this method, in combination with singular-value decomposition and Tikhonov regularization procedures, to determine the XAS/XES response from a crystalline silicon sample at the L2,3 edge, with an energy resolution of a few tens of meV. Finally, we combined this spectroscopic method with a pump-probe approach to measure structural and electronic dynamics of a silicon membrane. Tr-XAS/XES data obtained after photoexcitation with an optical laser pulse at 390 nm allowed us to observe perturbations of the band structure, which are compatible with the formation of the predicted precursor state of a nonthermal solid-liquid phase transition associated with a bond softening phenomenon.

AB - Time-resolved x-ray emission/absorption spectroscopy (Tr-XES/XAS) is an informative experimental tool sensitive to electronic dynamics in materials, widely exploited in diverse research fields. Typically, Tr-XES/XAS requires x-ray pulses with both a narrow bandwidth and subpicosecond pulse duration, a combination that in principle finds its optimum with Fourier transform-limited pulses. In this work, we explore an alternative experimental approach, capable of simultaneously retrieving information about unoccupied (XAS) and occupied (XES) states from the stochastic fluctuations of broadband extreme ultraviolet pulses of a free electron laser. We used this method, in combination with singular-value decomposition and Tikhonov regularization procedures, to determine the XAS/XES response from a crystalline silicon sample at the L2,3 edge, with an energy resolution of a few tens of meV. Finally, we combined this spectroscopic method with a pump-probe approach to measure structural and electronic dynamics of a silicon membrane. Tr-XAS/XES data obtained after photoexcitation with an optical laser pulse at 390 nm allowed us to observe perturbations of the band structure, which are compatible with the formation of the predicted precursor state of a nonthermal solid-liquid phase transition associated with a bond softening phenomenon.

UR - http://www.scopus.com/inward/record.url?scp=85163475862&partnerID=8YFLogxK

U2 - 10.1103/PhysRevB.107.214305

DO - 10.1103/PhysRevB.107.214305

M3 - مقالة

SN - 2469-9950

VL - 107

JO - Physical Review B

JF - Physical Review B

IS - 21

M1 - 214305

ER -

Free electron laser stochastic spectroscopy revealing silicon bond softening dynamics

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