Federico Lucco Castello defends his PhD thesis
On Friday, Federico Lucco Castello defended his PhD thesis "Bridge functions in strongly coupled plasmas: theory, simulations and applications". Congratulations!
On Friday, 10th December 2021, Federico Lucco Castello defended his PhD thesis "Bridge functions in strongly coupled plasmas: theory, simulations and applications". The thesis work addresses the thermodynamics and static structure of classical as well as quantum plasma liquids. The opponent was Assoc. Prof. Giorgio Pastore from the University of Trieste, Italy.
Strongly coupled or non-ideal plasmas are multi-component charged systems in which at least one species possesses an average interaction energy that is comparable or larger than its thermal energy. Non-ideal plasmas are naturally occurring in dense astrophysical objects (e.g. giant planet interiors) but also engineered in the laboratory (e.g. plasma discharges seeded with solid particulates). They are typically encountered in the liquid state, whose theoretical description is particularly challenging due to the lack of small parameters. This thesis is focused on the development of a novel theoretical approach for the accurate calculation of the structural and thermodynamic properties of plasma liquids. Apart from their inherent significance, these properties also constitute necessary input to advanced theories of dynamical correlations, collective excitations and transport coefficients. The theoretical approach is based on the integral equation theory framework, whose central quantity is the bridge function; an abstract object of diagrammatic analysis that is impossible to calculate or even approximate through virial-type expansions. Here the bridge function is accurately determined by combining elements of the isomorph theory of R-simple liquids with indirect extractions from computer simulations. The unprecedented level of accuracy in both the structural and thermodynamic properties and the very low computational cost, render the approach the most efficient alternative to computer simulations of classical and quantum plasma liquids. Applications to collective modes and metastable properties are also discussed.
PhD thesis title: "Bridge functions in strongly coupled plasmas: theory, simulations and applications"
Time: Fri 2021-12-10 14.00
Subject area: Electrical Engineering
Opponent: Associate Professor Giorgio Pastore, University of Trieste, Italy.
Supervisors: Dr Panagiotis Tolias (SPP), Professor Svetlana Ratynskaia (SPP)
Link to the thesis: urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-304947