31 Aug 2024
Electromagnetic waves with orbital angular momentum (OAM) are increasingly used in optical communications, quantum technologies, and optical tweezers. Recently, they have shown potential for detecting helical dichroic effects in chiral molecules and magnetic nanostructures. In this study, we used single-shot ptychography on a nanostructure with extreme ultraviolet OAM beams of varying topological charge (ℓ) at a free-electron laser. By adjusting ℓ, we improved image resolution by 30% compared to standard Gaussian beams, advancing coherent diffraction imaging and enabling sub-100 nm time-resolved microscopy over large sample areas.31 Aug 2024
In the current document we report on a selection of new processes developed within the NFFA (NEP) project related to advanced nanoengineering for transnational access (TA). They form a new library of process steps enabling new or improved capabilities for some specific nanopatterning. They are complementary and generally compatible with state-of-the-art microelectronics industry. Besides developing the individual core technology, we paid particular attention to novel groupings in a mix-and-match approach to study possible combinations of processes to maximize enabling capabilities for nanosystems manufacturing.31 Aug 2024
Liquid cells equipped with on-purpose microfabricated thin silicon nitride membranes, with thickness in the 15-25 nm range, have been successfully tested at the HAXPES endstation of the GALAXIES beamline at the SOLEIL synchrotron radiation facility. Low stress membranes have been fabricated from 100 mm silicon wafers using standard lithography techniques and platinum alignment marks have been added to facilitate the positioning of the X-ray beam on the membrane. Two types of liquid cells have been used, a static one built on an Omicron-type sample holder with the liquid confined in the cell container, and a circulating liquid cell, in which the liquid can flow to mitigate the effects due to beam damage. The membranes are mechanically robust and withstand 1 bar pressure difference between the liquid inside the cell and vacuum and the intense synchrotron radiation beam during data acquisition, opening new opportunities for spectroscopic studies of liquids and dispersions of nanoparticles.