Nanoscale transient gratings excited and probed by extreme ultraviolet femtosecond pulses | Zendy

Filippo Bencivenga | Zendy; Riccardo Mincigrucci | Zendy; Flavio Capotondi | Zendy; Laura Foglia | Zendy; Denys Naumenko | Zendy; A. A. Maznev | Zendy; Emanuele Pedersoli | Zendy; Alberto Simoncig | Zendy; Federico Caporaletti | Zendy; Vazrik Chiloyan | Zendy; Riccardo Cucini | Zendy; Francesco Dallari | Zendy; Ryan A. Duncan | Zendy; Travis D. Frazer | Zendy; G. Gaio | Zendy; Alessandro Gessini | Zendy; L. Giannessi | Zendy; Samuel Huberman | Zendy; Henry C. Kapteyn | Zendy; Joshua L. Knobloch | Zendy; G. Kurdi | Zendy; Nicola Mahne | Zendy; Michele Manfredda | Zendy; Alessandro Martinelli | Zendy; M. M. Murnane | Zendy; Emiliano Principi | Zendy; Lorenzo Raimondi | Zendy; S. Spampinati | Zendy; Carlo Spezzani | Zendy; M. Trovò | Zendy; Marco Zangrando | Zendy; Gang Chen | Zendy; G. Monaco | Zendy; Keith A. Nelson | Zendy; C. Masciovecchio | Zendy

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Nanoscale transient gratings excited and probed by extreme ultraviolet femtosecond pulses

Author(s) -

Filippo Bencivenga,

Riccardo Mincigrucci,

Flavio Capotondi,

Laura Foglia,

Denys Naumenko,

A. A. Maznev,

Emanuele Pedersoli,

Alberto Simoncig,

Federico Caporaletti,

Vazrik Chiloyan,

Riccardo Cucini,

Francesco Dallari,

Ryan A. Duncan,

Travis D. Frazer,

G. Gaio,

Alessandro Gessini,

L. Giannessi,

Samuel Huberman,

Henry C. Kapteyn,

Joshua L. Knobloch,

G. Kurdi,

Nicola Mahne,

Michele Manfredda,

Alessandro Martinelli,

M. M. Murnane,

Emiliano Principi,

Lorenzo Raimondi,

S. Spampinati,

Carlo Spezzani,

M. Trovò,

Marco Zangrando,

Gang Chen,

G. Monaco,

Keith A. Nelson,

C. Masciovecchio

Publication year - 2019

Publication title -

science advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.928

H-Index - 146

ISSN - 2375-2548

DOI - 10.1126/sciadv.aaw5805

Subject(s) - extreme ultraviolet lithography , extreme ultraviolet , ultrashort pulse , femtosecond , materials science , grating , optics , optoelectronics , wavelength , nanoscopic scale , diffraction grating , diffraction , silicon , laser , physics , nanotechnology

Advances in developing ultrafast coherent sources operating at extreme ultraviolet (EUV) and x-ray wavelengths allow the extension of nonlinear optical techniques to shorter wavelengths. Here, we describe EUV transient grating spectroscopy, in which two crossed femtosecond EUV pulses produce spatially periodic nanoscale excitations in the sample and their dynamics is probed via diffraction of a third time-delayed EUV pulse. The use of radiation with wavelengths down to 13.3 nm allowed us to produce transient gratings with periods as short as 28 nm and observe thermal and coherent phonon dynamics in crystalline silicon and amorphous silicon nitride. This approach allows measurements of thermal transport on the ~10-nm scale, where the two samples show different heat transport regimes, and can be applied to study other phenomena showing nontrivial behaviors at the nanoscale, such as structural relaxations in complex liquids and ultrafast magnetic dynamics.

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