Your search keyword '"Paltanin, Ettore"' showing total 12 results

1. The effect of echoes interference on phonon attenuation in a nanophononic membrane

Author

Hadi, Mohammad, Luo, Haoming, Pailhès, Stéphane, Tanguy, Anne, Gravouil, Anthony, Capotondi, Flavio, De Angelis, Dario, Fainozzi, Danny, Foglia, Laura, Mincigrucci, Riccardo, Paltanin, Ettore, Pedersoli, Emanuele, Pelli-Cresi, Jacopo S., Bencivenga, Filippo, and Giordano, Valentina M.

Published

2024

2. A high-efficiency programmable modulator for extreme ultraviolet light with nanometre feature size based on an electronic phase transition

Author

Vaskivskyi, Igor, Mraz, Anze, Venturini, Rok, Jecl, Gregor, Vaskivskyi, Yevhenii, Mincigrucci, Riccardo, Foglia, Laura, De Angelis, Dario, Pelli-Cresi, Jacopo-Stefano, Paltanin, Ettore, Fainozzi, Danny, Bencivenga, Filippo, Masciovecchio, Claudio, and Mihailovic, Dragan

Published

2024

3. Exploring the Fundamental Spatial Limits of Magnetic All-Optical Switching.

Author

Steinbach, Felix, Atxitia, Unai, Yao, Kelvin, Borchert, Martin, Engel, Dieter, Bencivenga, Filippo, Foglia, Laura, Mincigrucci, Riccardo, Pedersoli, Emanuele, De Angelis, Dario, Pancaldi, Matteo, Fainozzi, Danny, Pelli Cresi, Jacopo Stefano, Paltanin, Ettore, Capotondi, Flavio, Masciovecchio, Claudio, Eisebitt, Stefan, and von Korff Schmising, Clemens

Published

2024

4. Transient grating spectroscopy on a DyCo5 thin film with femtosecond extreme ultraviolet pulses.

Author

Ukleev, Victor, Leroy, Ludmila, Mincigrucci, Riccardo, De Angelis, Dario, Fainozzi, Danny, Khatu, Nupur Ninad, Paltanin, Ettore, Foglia, Laura, Bencivenga, Filippo, Luo, Chen, Ruske, Florian, Radu, Florin, Svetina, Cristian, and Staub, Urs

Subjects

ACOUSTIC surface waves, THIN films, SPIN waves, SOFT X rays, GRAZING incidence, FREE electron lasers, X-ray reflectometry

Abstract

Surface acoustic waves (SAWs) are excited by femtosecond extreme ultraviolet (EUV) transient gratings (TGs) in a room-temperature ferrimagnetic DyCo5 alloy. TGs are generated by crossing a pair of EUV pulses from a free electron laser with the wavelength of 20.8 nm matching the Co M-edge, resulting in a SAW wavelength of Λ = 44 nm. Using the pump-probe transient grating scheme in reflection geometry, the excited SAWs could be followed in the time range of −10 to 100 ps in the thin film. Coherent generation of TGs by ultrafast EUV pulses allows to excite SAW in any material and to investigate their couplings to other dynamics, such as spin waves and orbital dynamics. In contrast, we encountered challenges in detecting electronic and magnetic signals, potentially due to the dominance of the larger SAW signal and the weakened reflection signal from underlying layers. A potential solution for the latter challenge involves employing soft x-ray probes, albeit introducing additional complexities associated with the required grazing incidence geometry. [ABSTRACT FROM AUTHOR]

Published

2024

5. Ultrafast dynamics in (TaSe4)2I triggered by valence and core-level excitation.

Author

Bronsch, Wibke, Tuniz, Manuel, Crupi, Giuseppe, De Col, Michela, Puntel, Denny, Soranzio, Davide, Giammarino, Alessandro, Perlangeli, Michele, Berger, Helmuth, De Angelis, Dario, Fainozzi, Danny, Paltanin, Ettore, Pelli Cresi, Jacopo Stefano, Kurdi, Gabor, Foglia, Laura, Mincigrucci, Riccardo, Parmigiani, Fulvio, Bencivenga, Filippo, and Cilento, Federico

Abstract

Dimensionality plays a key role in the emergence of ordered phases, such as charge density-waves (CDW), which can couple to, and modulate, the topological properties of matter. In this work, we study the out-of-equilibrium dynamics of the paradigmatic quasi-one-dimensional material (TaSe4)2I, which exhibits a transition into an incommensurate CDW phase when cooled to just below room temperature, namely at TCDW = 263 K. We make use of both optical laser and free-electron laser (FEL) based time-resolved spectroscopies in order to study the effect of a selective excitation on the normal-state and on the CDW phases by probing the near-infrared/visible optical properties both along and perpendicularly to the direction of the CDW, where the system is metallic and insulating, respectively. Excitation of the core-levels by ultrashort X-ray FEL pulses at 47 eV and 119 eV induces reflectivity transients resembling those recorded when only exciting the valence band of the compound – by near-infrared pulses at 1.55 eV – in the case of the insulating sub-system. Conversely, the metallic sub-system displays relaxation dynamics which depend on the energy of photo-excitation. Moreover, excitation of the CDW amplitude mode is recorded only for excitation at a low-photon-energy. This fact suggests that the coupling of light to ordered states of matter can predominantly be achieved when directly injecting delocalized carriers in the valence band, rather than localized excitations in the core levels. Complementing this, table-top experiments allow us to prove the quasi-unidirectional nature of the CDW phase in (TaSe4)2I, whose fingerprints are detected along its c-axis only. Our results provide new insights into the symmetry of the ordered phase of (TaSe4)2I perturbed by a selective excitation, and suggest a novel approach based on complementary table-top and FEL spectroscopies for the study of complex materials. [ABSTRACT FROM AUTHOR]

Published

2022

6. Tailored Coumarin Dyes for Photoredox Catalysis: Calculation, Synthesis, and Electronic Properties.

Author

Gualandi, Andrea, Nenov, Artur, Marchini, Marianna, Rodeghiero, Giacomo, Conti, Irene, Paltanin, Ettore, Balletti, Matteo, Ceroni, Paola, Garavelli, Marco, and Cozzi, Pier Giorgio

Subjects

CATALYSIS, REDUCTION potential, TIME-dependent density functional theory, COUMARINS, TRANSITION metal catalysts, COUMARIN derivatives, ABSORPTION spectra, PHOTOCATALYSTS

Abstract

High level time‐dependent density functional theory (TD‐DFT) computational modeling of coumarin dyes has been exploited for guiding the design of effective photocatalysts (PCs). A library of coumarins were investigated from the theoretical point of view and photophysical/electrochemical properties (absorption and emission spectra, E00, oxidation and reduction potentials) were evaluated. Comparison with literature values reported for a few candidates has been used for assessing the level of theory. On the basis of the results obtained, new strongly reducing PCs [Eox(PC.+/PC*)=−2.1 – −2.0 V vs SCE] were discovered. Through the computational study of structure‐properties relationships, a number of coumarins derivatives have been synthesized and evaluated in the pinacol coupling of aldehydes as the model reaction. The new organic photoredox catalysts show experimental photophysical and electrochemical data in accordance with the ones predicted by calculation, with excited state reduction potentials surpassing those of highly reducing transition metal‐based PCs. A careful investigation of their behavior as PC has revealed crucial issues that need to be taken into consideration in the general photoredox catalysis, shedding light on the use of these PC in the pinacol, as well as, in other photoredox reactions. [ABSTRACT FROM AUTHOR]

Published

2021

7. Regarding the torsional flexibility of the dihydrolipoic acid's pharmacophore: 1,3-propanedithiol.

Author

Vigorito, Annalisa, Calabrese, Camilla, Paltanin, Ettore, Melandri, Sonia, and Maris, Assimo

Abstract

The conformational space of antioxidant dihydrolipoic acid has been explored through the investigation of its pharmacophore, 1,3-propanedithiol. Five of the possible 25 non-equivalent isomers (namely: gGGg′, gGGg, g′AGg, gAGg and g′AGg′) were observed in the 59.6–74.4 GHz frequency region using free-jet absorption rotational spectroscopy. Furthermore, for three of them, the 34S mono-substituted isotopologues were also detected in natural abundance. Theoretical simulations show that the balance of steric and electronic intramolecular interactions arises on a shallow conformational potential energy surface and suggest that in polar solvents the flexibility of the dithiol chain is greater than that in the isolated phase. [ABSTRACT FROM AUTHOR]

Published

2017

8. Excitation and detection of coherent nanoscale spin waves via extreme ultraviolet transient gratings.

Author

Miedaner, Peter R., Berndt, Nadia, Deschamps, Jude, Urazhdin, Sergei, Khatu, Nupur, Fainozzi, Danny, Brioschi, Marta, Carrara, Pietro, Cucini, Riccardo, Rossi, Giorgio, Wittrock, Stefen, Ksenzov, Dmitriy, Mincigrucci, Riccardo, Bencivenga, Filippo, Foglia, Laura, Paltanin, Ettore, Bonetti, Stefano, Engel, Dieter, Schick, Daniel, and Gutt, Christian

Subjects

*SPIN waves, *FEMTOSECOND pulses, *FOUR-wave mixing, *MAGNONS, *INELASTIC scattering, *FREE electron lasers

Abstract

The advent of free electron lasers has opened the opportunity to explore interactions between extreme ultraviolet (EUV) photons and collective excitations in solids. While EUV transient grating spectroscopy, a noncollinear four-wave mixing technique, has already been applied to probe coherent phonons, the potential of EUV radiation for studying nanoscale spin waves has not been harnessed. Here we report EUV transient grating experiments with coherent magnons in Fe/Gd ferrimagnetic multilayers. Magnons with tens of nanometers wavelengths are excited by a pair of femtosecond EUV pulses and detected via diffraction of a probe pulse tuned to an absorption edge of Gd. The results unlock the potential of nonlinear EUV spectroscopy for studying magnons and provide a tool for exploring spin waves in a wave vector range not accessible by established inelastic scattering techniques. [ABSTRACT FROM AUTHOR]

Published

2024

9. Transient grating spectroscopy on a DyCo 5 thin film with femtosecond extreme ultraviolet pulses.

Author

Ukleev V, Leroy L, Mincigrucci R, Deangelis D, Fainozzi D, Khatu NN, Paltanin E, Foglia L, Bencivenga F, Luo C, Ruske F, Radu F, Svetina C, and Staub U

Abstract

Surface acoustic waves (SAWs) are excited by femtosecond extreme ultraviolet (EUV) transient gratings (TGs) in a room-temperature ferrimagnetic DyCo 5 alloy. TGs are generated by crossing a pair of EUV pulses from a free electron laser with the wavelength of 20.8 nm matching the Co M -edge, resulting in a SAW wavelength of Λ = 44 nm. Using the pump-probe transient grating scheme in reflection geometry, the excited SAWs could be followed in the time range of -10 to 100 ps in the thin film. Coherent generation of TGs by ultrafast EUV pulses allows to excite SAW in any material and to investigate their couplings to other dynamics, such as spin waves and orbital dynamics. In contrast, we encountered challenges in detecting electronic and magnetic signals, potentially due to the dominance of the larger SAW signal and the weakened reflection signal from underlying layers. A potential solution for the latter challenge involves employing soft x-ray probes, albeit introducing additional complexities associated with the required grazing incidence geometry., Competing Interests: The authors have no conflicts to disclose., (© 2024 Author(s).)

Published

2024

10. Stimulated Brillouin Scattering in the Time Domain at 1  nm^{-1} Wave Vector.

Author

Fainozzi D, Foglia L, Khatu NN, Masciovecchio C, Mincigrucci R, Paltanin E, and Bencivenga F

Abstract

We used extreme ultraviolet (EUV) pulses to create transient gratings (TGs) with sub-100 nm spatial periodicity in a β-Ga_{2}O_{3} single crystal. The EUV TG launches acoustic modes parallel to the sample surface, whose dynamics were revealed via backward diffraction of a third, time-delayed, EUV pulse. In addition, the sharp penetration depth of EUV light launches acoustic modes along the surface normal with a broad wave vector spectrum. The dynamics of selected modes at a wave vector tangibly larger (≈1  nm^{-1}) than the TG one is detected in the time domain via the interference between the backward diffracted TG signal and the stimulated Brillouin backscattering of the EUV probe. While stimulated Brillouin backscattering of an optical probe was reported in previous EUV TG experiments, its extension to shorter wavelengths can be used as a contactless experimental tool for filling the gap between the wave vector range accessible by inelastic hard x-ray and thermal neutron scattering techniques, and the one accessible through Brillouin scattering of visible and UV light.

Published

2024

11. Ultrafast dynamics in (TaSe 4 ) 2 I triggered by valence and core-level excitation.

Author

Bronsch W, Tuniz M, Crupi G, De Col M, Puntel D, Soranzio D, Giammarino A, Perlangeli M, Berger H, De Angelis D, Fainozzi D, Paltanin E, Pelli Cresi JS, Kurdi G, Foglia L, Mincigrucci R, Parmigiani F, Bencivenga F, and Cilento F

Abstract

Dimensionality plays a key role in the emergence of ordered phases, such as charge density-waves (CDW), which can couple to, and modulate, the topological properties of matter. In this work, we study the out-of-equilibrium dynamics of the paradigmatic quasi-one-dimensional material (TaSe 4 ) 2 I, which exhibits a transition into an incommensurate CDW phase when cooled to just below room temperature, namely at T CDW = 263 K. We make use of both optical laser and free-electron laser (FEL) based time-resolved spectroscopies in order to study the effect of a selective excitation on the normal-state and on the CDW phases by probing the near-infrared/visible optical properties both along and perpendicularly to the direction of the CDW, where the system is metallic and insulating, respectively. Excitation of the core-levels by ultrashort X-ray FEL pulses at 47 eV and 119 eV induces reflectivity transients resembling those recorded when only exciting the valence band of the compound - by near-infrared pulses at 1.55 eV - in the case of the insulating sub-system. Conversely, the metallic sub-system displays relaxation dynamics which depend on the energy of photo-excitation. Moreover, excitation of the CDW amplitude mode is recorded only for excitation at a low-photon-energy. This fact suggests that the coupling of light to ordered states of matter can predominantly be achieved when directly injecting delocalized carriers in the valence band, rather than localized excitations in the core levels. Complementing this, table-top experiments allow us to prove the quasi-unidirectional nature of the CDW phase in (TaSe 4 ) 2 I, whose fingerprints are detected along its c -axis only. Our results provide new insights into the symmetry of the ordered phase of (TaSe 4 ) 2 I perturbed by a selective excitation, and suggest a novel approach based on complementary table-top and FEL spectroscopies for the study of complex materials.

Published

2022

12. Regarding the torsional flexibility of the dihydrolipoic acid's pharmacophore: 1,3-propanedithiol.

Author

Vigorito A, Calabrese C, Paltanin E, Melandri S, and Maris A

Abstract

The conformational space of antioxidant dihydrolipoic acid has been explored through the investigation of its pharmacophore, 1,3-propanedithiol. Five of the possible 25 non-equivalent isomers (namely: gGGg', gGGg, g'AGg, gAGg and g'AGg') were observed in the 59.6-74.4 GHz frequency region using free-jet absorption rotational spectroscopy. Furthermore, for three of them, the 34 S mono-substituted isotopologues were also detected in natural abundance. Theoretical simulations show that the balance of steric and electronic intramolecular interactions arises on a shallow conformational potential energy surface and suggest that in polar solvents the flexibility of the dithiol chain is greater than that in the isolated phase.

Published

2016