Your search keyword '"Paltanin, Ettore"' showing total 2 results

1. 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

Abstract

The absence of efficient light modulators for extreme ultraviolet (EUV) and X-ray photons considerably limits their real-life application, particularly when even slight complexity of the beam patterns is required. Here we report on a novel approach to reversible imprinting of a holographic mask in an electronic Wigner crystal material with a sub-90-nm feature size. The structure is imprinted on a sub-picosecond timescale using EUV laser pulses, and acts as a high-efficiency diffraction grating that deflects EUV or soft X-ray light. The imprinted nanostructure is stable after the removal of the exciting beams at low temperatures, but can be easily erased by a single heating beam. Modelling shows that the efficiency of the device can exceed 1%, approaching state-of-the-art etched gratings, but with the benefit of being programmable and tunable over a large range of wavelengths. The observed effect is based on the rapid change of lattice constant upon transition between metastable electronically ordered phases in a layered transition metal dichalcogenide. The proposed approach is potentially useful for creating tunable light modulators in the EUV and soft X-ray spectral ranges.

Published

2024

2. 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

Abstract

All-optical switching (AOS) results in ultrafast and deterministic magnetization reversal upon single laser pulse excitation, potentially supporting faster and more energy-efficient data storage. To explore the fundamental limits of achievable bit densities in AOS, we have used soft X-ray transient grating spectroscopy to study the ultrafast magnetic response of a GdFe alloy after a spatially structured excitation with a periodicity of 17 nm. The ultrafast spatial evolution of the magnetization in combination with atomistic spin dynamics and microscopic temperature model calculations allows us to derive a detailed phase diagram of AOS as a function of both the absorbed energy density and the nanoscale excitation period. Our results suggest that the minimum size for AOS in GdFe alloys, induced by a nanoscale periodic excitation, is around 25 nm and that this limit is governed by ultrafast lateral electron diffusion and by the threshold for optical damage.

Published

2024