Seminari di Fisica Matematica a Roma Tre

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2017-18/

	Relatore	Titolo	Data
Seminari A.A. 2017-2018
	I Seminari si svolgono il martedì alle 14:30 nell'aula 311 del Dipartimento di Matematica (salvo diversa indicazione)

	Michele Correggi Università "La Sapienza"	Quasi-classical limit for quantum particle-field systems	22 Maggio 2018

	Serena Cenatiempo GSSI L'Aquila	Bogoliubov theory in the Gross-Pitaevskii regime	15 Maggio 2018

	Margherita Disertori University of Bonn	Supersymmetry and Ward identities as a tool to study functional integrals	8 Maggio 2018

	Vieri Mastropietro Università di Milano	Bulk-Edge correspondence in interacting spin Hall insulators	17 Aprile 2018

	Alfonso Sorrentino Università Tor Vergata	On Birkhoff conjecture for convex billiards	12 Aprile 2018 (giovedì)

	Martin Tassy University of California	Variational principles for discrete maps	06 Febbraio 2018

	Monia Capanna Università dell'Aquila	Turing instability in a model with two interacting Ising lines	31 Gennaio 2018 (mercoledì ore 11:30 Aula 211)

	Alexandre Efremov École Polytechnique Palaiseau	Renormalization in QFTs	30 Gennaio 2018

	Yinon Spinka Tel Aviv University	A condition for long-range order in discrete spin systems	26 Gennaio 2018 (venerdì)

	Eric Ossami Endo Universidade de São Paulo	Ferromagnetic Spin models with spatially dependent external fields	23 Gennaio 2018

	N.J.B. Aza Universidade de São Paulo	On large deviation principles and lattice Fermion systems	22 Gennaio 2018 (lunedì ore 11:30)

	Clément Erignoux IMPA	Duality and macroscopic evolution of nonequilibrium boundary-driven lattice gases	9 Gennaio 2018

	Domenico Monaco Università Roma Tre	Adiabatic currents for interacting electrons on a lattice	21 Novembre 2017
	Abstract ritorna	Consider a system of interacting fermions on a finite lattice modelled by a gapped many-body Hamiltonian H(t), depending adiabatically on time. I will present an adiabatic theorem for the trace per unit volume of local observables in a state evolving adiabatically from a ground state of H(0). The theorem holds with error estimates that are uniform in the size of the system. Our result provides an adiabatic expansion to all orders, in particular, also for initial data that lie in eigenspaces of degenerate eigenvalues. The adiabatic theorem allows to compute the current density induced by the adiabatic change of the Hamiltonian, and derive rigorously the so-called linear response formula for a system of interacting fermions in a ground state, with error estimates uniform in the system size. I will also discuss the application to quantum Hall systems. This is based on joint work with Stefan Teufel.

	Eris Runa Max Planck Institut	Exact periodic stripes for minimizers of a local/non-local interaction functional in general dimension	14 Novembre 2017

	Hugo Duminil-Copin IHES	Sharpness of the phase transition via randomized algorithms	7 Novembre 2017

	Fabio Toninelli Université Lyon 1	Interface growth models in the Anisotropic KPZ class	17 Ottobre 2017

	Suren Pogosian Armenian Academy of Sciences	Limiting cluster representation	04 Ottobre 2017 (mercoledì aula 211)

Seminari di Fisica Matematica

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