From 16th to 18th of December 2024 we will have our first FisMat days in the Ruka in Afunalhue, Campus Villarica of the Pontifical Catholic University of Chile. Poster
Tentative schedule
The following schedule is only tentative and will be adjusted. The idea is to give all participants some space to talk if they want to.
Time | Mon. 16.12. | Tue. 17.12. | Wed. 18.12. | Thu. 19.12. |
---|---|---|---|---|
8:00 - 9:00 | --- | Breakfast | Breakfast | Breakfast |
9:00-9:40 | Javier Lorca | Dominique Spehner | final discussion | |
9:45-10:25 | Fabian Belmonte | Daniel Parra | ||
10:30-11:00 | Coffee | Coffee | departure | |
11:00-11:40 | Arias Cesar | Hanne van den Bosch | ||
11:45-12:25 | Per Sundell | Pablo Miranda | ||
12:30-14:00 | Lunch | Lunch | ||
14:00-14:40 | Julian Calderon | Christian Sadel | ||
14:45-15:25 | Santiago Gonzalez | Marouane Assal | ||
15:30-16:00 | Coffee | Coffee | ||
16:00-16:45 | Arrival | Jorge Acuña | --- | |
17:00-18:00 | Welcome | Discussion | Discussion | |
18:30-20:00 | Dinner | Dinner | Dinner |
Participants
Name | University |
---|---|
Acuña, Jorge | PUC Chile |
Arias, Cesar | PUC Chile |
Assal, Marouane | USACH |
Baeza, Augustin | PUC Chile |
Belmonte, Fabian | U. Católica del Norte |
Calderon, Julian | PUC Chile |
De Nittis, Giuseppe | PUC Chile |
Figueroa, Cristian | USACH |
Gonzalez, Santiago | PUC Chile |
Lorca, Javier | U. Frontera |
Miranda, Pablo | USACH |
Moreno, Gregorio | PUC Chile |
Núñez, Luis | PUC Chile |
Paraguez, Ignacio | PUC Chile |
Parra, Daniel | U. Frontera |
Sadel, Christian | PUC Chile |
Saenz, Camila | PUC Chile |
Spehner, Dominique | UDEC |
Sundell, Per | U. Andres Bello |
Taarabt, Amal | PUC Chile |
Van Den Bosch, Hanne | CMM, U. Chile |
Talks
Javier Lorca, Higher Abelian Quantum Double Models: Introduction to the Characterization and Classification of the Ground State Subspace
Higher dimensional abelian quantum double models have been shown to be well defined in any finite dimension and exhibit the characteristic behavior of SPT phases models. In this talk, we will introduce the formalism of these models in a pedagogical manner, focusing on the characterization of the topological ground state subspace and briefly presenting its classification scheme. We will discuss the connection of these models with pressing problems in condensed matter physics and quantum computation.
Fabian Belmonte, TBA
Arias Cesar, What geometry can teach us about holography?
One of the most fundamental open problems in theoretical physics is the unification of the four elementary interactions into a single theory of quantum gravity. To this end, the holographic principle—the idea that the degrees of freedom that characterize a certain physical system are encoded at the boundary of spacetime—may arguably provide some key insights into our microscopic understanding of gravitational phenomena. In the context of string theory, the holographic principle crystallizes into the celebrated AdS/CFT correspondence, which conjectures that quantum gravity on a negatively curved spacetime (known as anti-de Sitter space, or AdS) is equivalent to a non- gravitational theory (referred to as a conformal field theory, or CFT) which has support on the boundary of spacetime. In this picture, spacetime may be thought of as emerging from the boundary data of the dual theory.
In this talk, we propose an holographic scheme in which dual theories do not necessarily have support on the boundary of spacetime, but they can also be localized on special interior subregions called defects. These are distinguished hypersurfaces that can be thought of as spacetime impurities, and that arguably exhibit all the relevant geometric textures that we find at the boundary of spacetime—including the capability to encapsulate degrees of freedom which can be independently described by means of some quantum field theory. In this proposed framework, spacetime can not only be reconstructed from a boundary theory, but also from dual defect theories that are located in the deep interior of spacetime itself.
Per Sundell, AKSZ quantization of unfolded fields
Quantum fields on spacetime emerges naturally within operator algebras arising from solutions to the Batalin-Vilkovisky master equation formulated in spaces of maps between Q manifolds due to Alexandrov, Kontsevich, Schwarz and Zaboronsky. We describe how the formalism applies to various theories containing gravity in their unfolded form, including higher spin gravity, and its impact on our understanding of holography
Julian Calderon, Sistemas cuánticos a temperatura finita T > 0: Fases de Berry y Uhlmann
En esta charla exploraremos la transición desde la caracterización geométrica del modelo de Ising XY a temperatura T = 0 donde un índice Z_2 se relaciona con una clase de Chern del haz generado por el estado base, hacia el análisis a T > 0. En este régimen, los estados de Gibbs, que son estados quasilibres, permiten asociar operadores positivos invertibles en el espacio de una partícula. Estos operadores generan una holonomía en la fibración de Uhlmann, que, mediante una noción de purificación, puede reinterpretarse geométricamente en términos de fases similares a las de Berry. Veremos cómo, bajo ciertas condiciones, los espectros de las respectivas holonomías coinciden.
Santiago Gonzalez, Topological classification of translation-invariant states.
Jorge Acuña, Generalizaciones del Modelo de Kitaev.
Dominique Spehner, TBA
Daniel Parra, TBA
Hanne van den Bosch, Edge modes at soft walls.
The spectrum of a periodic Hamiltonian, such as the Wallace model for graphene or the SSH chain in dimension 1, consists of absolutely continuous bands.
When such a Hamiltonian is confined to a halfspace, additional points can appear in the spectrum. They are exponentially decaying away from the interface and thus called edge modes.
The edge states correspond to eigenvalues of the Bloch Hamiltonian. One way to show their existence is through spectral flow methods.
In this talk, I will introduce these methods for the case of a discrete hamiltonian where the confinement is due to a bounded potential diverging to plus infinity on one side. This is based on joint work with David Gontier and Camilo Gomez.
Pablo Miranda, Asintótica de valores propios para operadores de Dirac magnéticos en dos dimensiones
En esta charla, presentamos resultados sobre la distribución de valores propios para operadores de Dirac magnéticos bidimensionales. Consideramos operadores con campo magnético constante, con perturbaciones eléctricas y magnéticas que tienen soporte compacto. Derivamos fórmulas asintóticas de tercer orden que incorporan una propiedad geométrica del soporte de la perturbación. Notablemente, nuestro enfoque nos permite considerar algunas perturbaciones que no necesariamente tienen signo fijo, lo cual constituye una de las principales novedades de nuestro trabajo.
Christian Sadel, Transfermatrix methods for one-channel unitary operators.
Transfermatrix methods have been extremely useful in one-dimensional systems like one-dimensional discrete Schrödinger operators or one-dimensional quantum walks. In the Hermitian case such methods have been generalized first to a certain ‘one-channel’ scheme and later to any locally finite hopping Hermitian operator (including higher dimensional discrete Schrödinger operators) giving a formula for the spectral measure at some designated root of the graph. This also implies criteria for delocalization. In the unitary world we recently developed the analogue of the one-channel scheme.
Marouane Assal, Crossings of classical trajectories and quantum resonances for Schrödinger systems
In physics, the notion of quantum resonances goes back to the very beginnings of quantum mechanics. It was proposed to explain results in scattering experiments, and it is associated to the notion of pseudo-particles with finite lifetime. To some extent, it is reasonable to think of resonances as complex numbers which are generalized eigenvalues of quantum observable. The imaginary part of a resonance is interpreted as the inverse of the lifetime of the pseudo-particle it is associated with. Thus, the closer they are to the real axis, the more meaningful they should be.
I will present some recent results on the semiclassical asymptotic distribution of resonances for systems of Schrödinger operators with crossings of the underlying classical trajectories.
Organizers
Christian Sadel and Giuseppe De Nittis.
Sponsors
The event is sponsored by the Mathematics Faculty of the Pontifical University of Chile