Your search keyword '"Marmiroli, Benedetta"' showing total 2 results

1. Implication of the double-gating mode in hybrid photon counting detector for measurements of transient heat conduction in GaAs/AlAs superlattice structures

Author

Naumenko, Denys, Burian, Max, Marmiroli, Benedetta, Haider, Richard, Radeticchio, Andrea, Wagner, Lucas, Piazza, Luca, Glatt, Lisa, Brandstetter, Stefan, Zilio, Simone Dal, Biasiol, Giorgio, and Amenitsch, Heinz

Subjects

Physics - Applied Physics, Condensed Matter - Materials Science

Abstract

Understanding and control of thermal transport in solids at nanoscale is crucial to engineer and to enhance properties of a new generation of optoelectronic, thermoelectric, and photonic devices. In this regard, semiconductor superlattice structures provide a unique platform to study phenomena associated with phonon propagations in solids such as heat conduction. Transient X-ray diffraction can directly probe atomic motions and therefore is among the rare techniques sensitive to phonon dynamics in a condensed matter. Here, we study optically induced transient heat conduction in GaAs/AlAs superlattice structures using EIGER2 detector. Benchmark experiments have been performed at the Austrian SAXS beamline at Elettra Sincrotrone Trieste that operated in the hybrid filling mode. We demonstrate that drifts of experimental conditions, such as synchrotron beam fluctuations, become less essential when utilizing EIGER2 double gating mode that results in a faster acquisition of high quality data and facilitates data analysis and data interpretation., Comment: 15 pages, 9 figures, 1 table

Published

2023

2. Laser Ablation and Injection Moulding as Techniques for Producing Micro Channels Compatible with Small Angle X-Ray Scattering

Author

Haider, Richard, Marmiroli, Benedetta, Gavalas, Iakovos, Wolf, Marcell, Matteucci, Marco, Taboryski, Rafael, Boisen, Anja, Stratakis, Emmanuel, and Amenitsch, Heinz

Subjects

Physics - Applied Physics

Abstract

Microfluidic mixing is an important means for in-situ sample preparation and handling while Small Angle X-Ray Scattering (SAXS) is a proven tool for characterising (macro-)molecular structures. In combination those two techniques enable investigations of fast reactions with high time resolution (<1 ms). The goal of combining a micro mixer with SAXS, however, puts constraints on the materials and production methods used in the device fabrication. The measurement channel of the mixer needs good x-ray transparency and a low scattering background. While both depend on the material used, the requirement for low scattering especially limits the techniques suitable for producing the mixer, as the fabrication process can induce molecular orientations and stresses that can adversely influence the scattering signal. Not only is it important to find a production method that results in a device with low background scattering, but it also has to be versatile enough to produce appropriate mixer designs. Here we discuss two methods - laser ablation of polycarbonate and injection moulding of Topas - which were found suitable for our needs, provided care is taken in aligning the mixing/reaction channel, where the actual measurements will be carried out. We find injection moulding to be the better of the two methods., Comment: 11 pages, 6 figures, published as part of the MNE2017 proceedings

Published

2018