Nanomagnetic phenomena driven by optical field and by plasmonic structure below the optical diffraction limit
Optical excitation and spectroscopic analysis will complement the field-matter coupling processes investigation at the nanoscale. In particular, structural information will complement nanomagnetic phenomena driven by the optical field. Plasmonic structures will overcome the optical diffraction limits for down-scaling of optoelectronic devices. Studies on surface magneto-dynamics processes at nanoscale with the use of a pulsed source, extending the temporal resolution to the current spin-resolved spectral-microscopies. Acquisition of FAIR data and implementation of FAIR-by-design technology in the framework of NFFA-DI.

Location: Università degli Studi di Milano
Deadline: 27/07/2023
Contacts: Giorgio Rossi and Andrea Giugni

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Ab initio molecular dynamics with electronic friction, and other non-adiabatic effects at metallic surfaces
This work will benefit from advanced codes and methods, such as machine learning (ML)-based approaches, and interfaces for the remote (interactive) access to theory/simulations. The work will be done establishing a synergetic collaboration with the National Center for HPC and its facilities. Expertise on FAIR data management and repositories in the framework of NFFA-DI.

Location: Università degli Studi di Milano
Deadline: 27/07/2023
Contacts: Giovanni Onida and Nicola Manini