@article {2015,
title = {Symmetry and localization in periodic crystals: triviality of Bloch bundles with a fermionic time-reversal symmetry},
journal = {Acta Applicandae Mathematicae, vol. 137, Issue 1, 2015, pages: 185-203},
year = {2015},
note = {The article is composed of 23 pages and recorded in PDF format},
publisher = {Springer},
abstract = {We describe some applications of group- and bundle-theoretic methods in solid state physics, showing how symmetries lead to a proof of the localization of electrons in gapped crystalline solids, as e.g. insulators and semiconductors.
We shortly review the Bloch-Floquet decomposition of periodic operators, and the related concepts of Bloch frames and composite Wannier functions. We show that the latter are almost-exponentially localized if and only if there exists a smooth periodic Bloch frame, and that the obstruction to the latter condition is the triviality of a Hermitian vector bundle, called the Bloch bundle. The r{\^o}le of additional Z_2-symmetries, as time-reversal and space-reflection symmetry, is discussed, showing how time-reversal symmetry implies the triviality of the Bloch bundle, both in the bosonic and in the fermionic case. Moreover, the same Z_2-symmetry allows to define a finer notion of isomorphism and, consequently, to define new topological invariants, which agree with the indices introduced by Fu, Kane and Mele in the context of topological insulators.},
doi = {10.1007/s10440-014-9995-8},
url = {http://urania.sissa.it/xmlui/handle/1963/34468},
author = {Domenico Monaco and Gianluca Panati}
}
@article {2014,
title = {Topological Invariants of Eigenvalue Intersections and Decrease of Wannier Functions in Graphene},
journal = {J. Stat. Phys 155 (2014) 1027-1071},
year = {2014},
publisher = {Journal of Statistical Physics},
abstract = {We investigate the asymptotic decrease of the Wannier functions for the valence and conduction band of graphene, both in the monolayer and the multilayer case. Since the decrease of the Wannier functions is characterised by the structure of the Bloch eigenspaces around the Dirac points, we introduce a geometric invariant of the family of eigenspaces, baptised eigenspace vorticity. We compare it with the pseudospin winding number. For every value n∈Z of the eigenspace vorticity, we exhibit a canonical model for the local topology of the eigenspaces. With the help of these canonical models, we show that the single band Wannier function w satisfies |w(x)|<=const |x|^{-2} as |x|{\textrightarrow}$\infty$, both in monolayer and bilayer graphene.},
keywords = {Wannier functions, Bloch bundles, conical intersections, eigenspace vorticity, pseudospin winding number, graphene},
doi = {10.1007/s10955-014-0918-x},
author = {Domenico Monaco and Gianluca Panati}
}
@article {2010,
title = {The geometry emerging from the symmetries of a quantum system},
number = {SISSA;72/2009/FM},
year = {2010},
abstract = {We investigate the relation between the symmetries of a quantum system and its topological quantum numbers, in a general C*-algebraic framework. We prove that, under suitable assumptions on the symmetry algebra, there exists a generalization of the Bloch-Floquet transform which induces a direct-integral decomposition of the algebra of observables. Such generalized transform selects uniquely the set of \\\"continuous sections\\\" in the direct integral, thus yielding a Hilbert bundle. The emerging geometric structure provides some topological invariants of the quantum system. Two running examples provide an Ariadne\\\'s thread through the paper. For the sake of completeness, we review two related theorems by von Neumann and Maurin and compare them with our result.},
url = {http://hdl.handle.net/1963/3834},
author = {Giuseppe De Nittis and Gianluca Panati}
}
@article {2003,
title = {Effective dynamics for Bloch electrons: Peierls substitution and beyond},
number = {arXiv.org;math-ph/0212041v2},
year = {2003},
publisher = {Springer},
abstract = {We consider an electron moving in a periodic potential and subject to an additional slowly varying external electrostatic potential, $\\\\phi(\\\\epsi x)$, and vector potential $A(\\\\epsi x)$, with $x \\\\in \\\\R^d$ and $\\\\epsi \\\\ll 1$. We prove that associated to an isolated family of Bloch bands there exists an almost invariant subspace of $L^2(\\\\R^d)$ and an effective Hamiltonian governing the evolution inside this subspace to all orders in $\\\\epsi$. To leading order the effective Hamiltonian is given through the Peierls substitution. We explicitly compute the first order correction. From a semiclassical analysis of this effective quantum Hamiltonian we establish the first order correction to the standard semiclassical model of solid state physics.},
url = {http://hdl.handle.net/1963/3040},
author = {Gianluca Panati and Herbert Spohn and Stefan Teufel}
}
@article {2003,
title = {Space-adiabatic perturbation theory},
journal = {Adv. Theor. Math. Phys. 7 (2003) 145-204},
number = {arXiv.org;math-ph/0201055v3},
year = {2003},
publisher = {International Press},
abstract = {We study approximate solutions to the Schr\\\\\\\"odinger equation $i\\\\epsi\\\\partial\\\\psi_t(x)/\\\\partial t = H(x,-i\\\\epsi\\\\nabla_x) \\\\psi_t(x)$ with the Hamiltonian given as the Weyl quantization of the symbol $H(q,p)$ taking values in the space of bounded operators on the Hilbert space $\\\\Hi_{\\\\rm f}$ of fast {\textquoteleft}{\textquoteleft}internal\\\'\\\' degrees of freedom. By assumption $H(q,p)$ has an isolated energy band. Using a method of Nenciu and Sordoni \\\\cite{NS} we prove that interband transitions are suppressed to any order in $\\\\epsi$. As a consequence, associated to that energy band there exists a subspace of $L^2(\\\\mathbb{R}^d,\\\\Hi _{\\\\rm f})$ almost invariant under the unitary time evolution. We develop a systematic perturbation scheme for the computation of effective Hamiltonians which govern approximately the intraband time evolution. As examples for the general perturbation scheme we discuss the Dirac and Born-Oppenheimer type Hamiltonians and we reconsider also the time-adiabatic theory.},
url = {http://hdl.handle.net/1963/3041},
author = {Gianluca Panati and Herbert Spohn and Stefan Teufel}
}
@mastersthesis {2002,
title = {Space-adiabatic Decoupling in Quantum Dynamics},
year = {2002},
school = {SISSA},
url = {http://hdl.handle.net/1963/6360},
author = {Gianluca Panati}
}
@article {2002,
title = {Space-adiabatic perturbation theory in quantum dynamics},
journal = {Physical review letters. 2002 Jun; 88(25 Pt 1):250405},
number = {PMID:12097080;},
year = {2002},
publisher = {American Physical Society},
abstract = {A systematic perturbation scheme is developed for approximate solutions to the time-dependent Schr{\"o}dinger equation with a space-adiabatic Hamiltonian. For a particular isolated energy band, the basic approach is to separate kinematics from dynamics. The kinematics is defined through a subspace of the full Hilbert space for which transitions to other band subspaces are suppressed to all orders, and the dynamics operates in that subspace in terms of an effective intraband Hamiltonian. As novel applications, we discuss the Born-Oppenheimer theory to second order and derive for the first time the nonperturbative definition of the g factor of the electron within nonrelativistic quantum electrodynamics.},
doi = {10.1103/PhysRevLett.88.250405},
url = {http://hdl.handle.net/1963/5985},
author = {Gianluca Panati and Herbert Spohn and Stefan Teufel}
}