Sort by
Refine Your Search
-
of strongly-correlated materials, quantum magnets, and might hold the key of high-temperature superconductivity. Investigating its low-temperature many-body phases is extremely challenging using classical
-
experience in developing electronic structure methods and their application to perform atomistic simulations of molecules and materials. These include (but are not restricted to) SIESTA (www.siesta-project.org
-
, including seeking and securing external funding (grants, agreements). Supervision and Mentoring: Proven ability to lead and supervise students (at various academic levels) and junior researchers, fostering
-
, including seeking and securing external funding (grants, agreements). Supervision and Mentoring: Proven ability to lead and supervise students (at various academic levels) and junior researchers, fostering
-
reasoning skills and attention to details, allowing you to carry out rigorous science Ability to progressively develop a strategy to extract novelty from the data and your results Organizational skills
-
communication skills Ability to work in a team The Offer – Working Conditions Contract duration: Contract for Technical and Scientific Activities – estimated duration of 2 years, with the possibility of renewal
-
of twisted quantum materials and two-dimensional correlated electron systems. This project covers a wide range of areas, including advanced van der Waals materials, moire quantum matter, superconductivity
-
of cells, and power. The postdoctoral candidate(s) will have the opportunity to work in an EU-funded vibrant project at the intersection of chemical engineering, electrochemistry, material sciences; utilize
-
physics, which traditionally has relied upon powerful particle colliders, e.g. the LHC at CERN. Axions and axion-like particles (ALPs) are well-motivated dark matter candidates that could solve multiple