The objective of the doctoral network is the modelling of emergent phenomena arising from excitation, correlation, and coherence of electrons, spin, photons and nuclear motion. TIMES merges different areas of expertise in many-body physics, time-dependent electronic structure methods, and machine learning to reach a new paradigm of the atomistic modelling of nonequilibrium processes in condensed matter.
TIMES will train a new generation of scientists capable of devising novel theoretical and computational frameworks to simulate nonequilibrium phenomena. TIMES will synergize theoretical and numerical developments with High Performance Computer Centers, SMEs, and big-data facilities across Europe. The network activities will benefit from synergistic collaborations with leading experimental groups in ultrafast spectroscopy.
The 11 PhD projects covers several topics in the domain of time dependent simulations like exciton-ion dynamics, nonlinear response, decoherence phenomena, spin-waves, and light-induced structural phase transitions, among others.
The PhD candidates will be employed with a regular contract and a very competitive salary, much higher than standard grants for PhD students.
Requirements
Candidates must have completed the Master studies at the time of incorporation and must comply with the eligibility criteria of the MSCA Doctoral Networks (check eligibility criteria in the website and
on the site of MSCA program).
Background in one of the following areas: solid-state physics, computational chemistry, computational materials science and similar areas of research.
Experience in programming, high-performance computing, ab initio methods and machine learning methods is desirable.
How to apply
Interested candidates must submit a curriculum vitae (2 pages max.), indicating two references, a short research statement (1 page maximum), and the transcripts of academic records. Applications
should be uploaded as a single PDF file through the web form (https://times.uv.es/open-positions/), indicating the preferred supervisor/PhD project (up to 3 options in order of preference) and the time
window in which you are available to start.
TIMES and the Yambo code
Out of the 11 positions, 4 will be closely related to the use and development of new features in the yambo code.
- CNR, in Milano. PI: D. Sangalli. Topic: Exciton-phonon coupling and coherent Ehrenfest dynamics
- University of Valencia. PI: A. Molina-Sanchez. Topic: Excitons, Magnons, time-dependent simulations
- CNRS, in Marseille. PI: C. Attaccalite. Topic: Exciton dynamics and exciton-phonon
- Queen's university of Belfast. PI: M. Gruning. Topic: Non linear optical response and second Harmonic Generation