Luca Martinoia
Reports
Martinoia_FirstYearReport.pdf
(155.13 KB)
Martinoia_SecondYearReport.pdf
(177.76 KB)
Martinoia_ThirdYearReport.pdf
(142.96 KB)
Contatti
- 3630563@studenti.unige.it
Attività di ricerca
My research focuses on the study of hydrodynamics, an effective theory of many-body universal transport for systems close to thermal equilibrium. In particular I am interested in the phenomenology of condensed matter systems and in the relation between hydrodynamics and holography.
Ricerca al DIFI
Ricerca
Lista completa pubblicazioni IRIS
Pubblicazioni IRIS
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Developments in quasihydrodynamics - Theory and applications
Anno: 2024
Autore/i: Martinoia, Luca -
Relaxation terms for anomalous hydrodynamic transport in Weyl semimetals from kinetic theory
Anno: 2024
Autore/i: Amoretti, A.; Brattan, D. K.; Martinoia, L.; Matthaiakakis, I.; Rongen, J. -
Thermodynamic constraints and exact scaling exponents of flocking matter
Anno: 2024
Autore/i: Amoretti, Andrea; Brattan, Daniel K.; Martinoia, Luca -
Restoring time-reversal covariance in relaxed hydrodynamics
Anno: 2023
Autore/i: Amoretti, A.; Brattan, D. K.; Martinoia, L.; Matthaiakakis, I. -
Non-dissipative electrically driven fluids
Anno: 2023
Autore/i: Amoretti, Andrea; Brattan, Daniel K.; Martinoia, Luca; Matthaiakakis, Ioannis
Pubblicazioni principali
Relaxation terms for anomalous hydrodynamic transport in Weyl semimetals from kinetic theory
Andrea Amoretti, Daniel K. Brattan, Luca Martinoia, Ioannis Matthaiakakis, Jonas Rongen
Journal of High Energy Physics, 02 (2024) 071
Journal of High Energy Physics, 02 (2024) 071
Restoring time-reversal covariance in relaxed hydrodynamics
Andrea Amoretti, Daniel K. Brattan, Luca Martinoia, Ioannis Matthaiakakis
Physical Review D 108 (2023) 5, 056003
Physical Review D 108 (2023) 5, 056003
Leading order magnetic field dependence of conductivities in anomalous hydrodynamics
Andrea Amoretti, Daniel K. Brattan, Luca Martinoia, Ioannis Matthaiakakis
Physical Review D 108 (2023) 1, 016003
Physical Review D 108 (2023) 1, 016003
Non-dissipative electrically driven fluids
Andrea Amoretti, Daniel K. Brattan, Luca Martinoia, Ioannis Matthaiakakis
Journal of High Energy Physics, 05 (2023) 218
Journal of High Energy Physics, 05 (2023) 218
Destroying superconductivity in thin films with an electric field
Andrea Amoretti, Daniel K. Brattan, Nicodemo Magnoli, Luca Martinoia, Ioannis Matthaiakakis, Paolo Solinas
Physical Review Research 4 (2022) 3, 033211
Physical Review Research 4 (2022) 3, 033211
Hydrodynamic magneto-transport in holographic charge density wave states
Andrea Amoretti, Daniel Areán, Daniel K. Brattan, Luca Martinoia
Journal of High Energy Physics, 11 (2021) 011
Journal of High Energy Physics, 11 (2021) 011