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15/06/2015, 11:30 — 12:30 — Sala P3.10, Pavilhão de Matemática

Kishore Marathe, *City University of New York*

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Physical Mathematics: old and new

In this talk we will discuss some topics related to the interaction of physical and mathematical theories that have led to new points of view and new results in mathematics. The area where this is most evident is that of geometric topology of low dimensional manifolds. I coined the term *Physical Mathematics* to describe this new and fast growing area of research and used it in the title of my paper in Springer's book *Mathematics Unlimited: 2001 and beyond*.

We will discuss some recent developments in this area. General reference for this talk is my book *Topics in Physical Mathematics*, Springer (2010).

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22/04/2015, 16:00 — 17:00 — Sala P3.10, Pavilhão de Matemática

Daniele Pranzetti, *University of Erlangen-Nürnberg*

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Black hole entropy in loop quantum gravity

After briefly introducing the main ingredients of the loop quantum gravity approach, I show how it can applied to the calculation of black hole entropy. I review some well known results and open issues resulting from the interplay with Chern-Simons theory techniques. I then introduce a new analysis of the horizon degrees of freedom in terms of purely LQG methods, which turns out to be dual to a CFT description. I show how this unifying framework allows us to recover the semiclassical Bekenstein-Hawking entropy formula.

#### Ver também

Pranzetti_Black_Hole_in_Loop_Quantum_Gravity_Slides_20150422.pdf

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25/03/2015, 16:00 — 17:00 — Sala P3.10, Pavilhão de Matemática

Marko Vojinovic, *Grupo de Fisica Matematica, Univ. Lisboa*

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Introduction to Loop Quantum Gravity (part 3)

This series of lectures is intended to give an elementary introduction to the topic of the canonical quantization of the gravitational field, in the context of the Loop Quantum Gravity approach.

In the third lecture we will finish the construction of the spin-knot space and introduce the loop transform. Then we move on to the analysis of geometric observables (distance, area and volume) and the structure of the scalar constraint. Finally, matter coupling will be introduced. If time permits, we will also give a short review of two applications of the formalism: calculation of the black hole entropy, and the Big Bounce model of Loop Quantum Cosmology.

###
18/03/2015, 16:00 — 17:00 — Sala P3.10, Pavilhão de Matemática

Marko Vojinovic, *Grupo de Fisica Matematica, Univ. Lisboa*

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Introduction to Loop Quantum Gravity (part 2)

This series of lectures is intended to give an elementary introduction to the topic of the canonical quantization of the gravitational field, in the context of the Loop Quantum Gravity approach.

The second lecture is devoted to the canonical quantization procedure within the LQG framework. We will begin by a short introduction to the notion of background independence, and differences between perturbative and nonperturbative quantization. We will then rewrite general relativity in the canonical space+time formulation and introduce Ashtekar variables, as preparation for the canonical quantization. Then the main step is the quantization itself, and the construction of the appropriate Hilbert space of the theory based on the notions of spin networks and spin-knots.

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04/03/2015, 15:30 — 16:30 — Sala P3.10, Pavilhão de Matemática

Marko Vojinovic, *Grupo de Fisica Matematica, Univ. Lisboa*

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Introduction to Loop Quantum Gravity (part 1)

This series of lectures is intended to give an elementary introduction to the topic of the canonical quantization of the gravitational field, in the context of the Loop Quantum Gravity approach.

The first lecture will be devoted to the formulation of the problem of quantization of the gravitational field. We will give an overview of perturbative quantization, discuss the issue of nonrenormalizability, and provide a general classification of most prominent approaches to constructing a theory of quantum gravity. One such approach is Loop Quantum Gravity, which will be studied in more detail in subsequent lectures.

###
26/02/2015, 11:30 — 12:30 — Sala P3.10, Pavilhão de Matemática

Saikat Chatterjee, *Institut des Hautes Études Scientifiques, France*

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Twisted actions of categorical groups

We develop a theory of twisted actions of categorical groups using the notion of semidirect product of categories. I will present many examples of semi-direct product of categories. If time permits I will also work-out an example of twisted action involving the Poincaré 2-group. Specializing to the case of representations, where the the category on which categorical group acts has some kind of a vector space structure, we will establish a categorical analogue of Schur's lemma.

This is a joint work with A. Lahiri and A. Sengupta.

###
17/06/2014, 11:30 — 12:30 — Sala P3.10, Pavilhão de Matemática

Travis Willse, *The Australian National University, Canberra*

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Holography for parallel conformal data

The Fefferman-Graham ambient metric construction, with some technical asterisks, positively resolves the Dirichlet problem for compactification of asymptotically hyperbolic Einstein metrics, the compactification that occurs in the AdS/CFT correspondence. We show that data on the conformal boundary parallel with respect to Cartan's normal conformal connection — which is nearly the same thing as a holonomy reduction of the conformal structure — can be extended (again with an asterisk) to data parallel with respect to a natural connection on a corresponding bundle over the bulk, which in particular enables holographic study of such data. As an application, we use this extension result to construct metrics of exceptional holonomy.

###
27/05/2014, 14:30 — 15:30 — Sala P3.10, Pavilhão de Matemática

Jonathon Funk, *University of the West Indies, Barbados*

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Grothendieck topologies for C*-algebras

We investigate a (contravariant) functor from C*-algebras to
toposes and geometric morphisms that generalizes the Gelfand
spectrum in the commutative case. The functor produces a locale,
presented by means of a Grothendieck topology on an inf-semilattice
of 'Gelfand' opens \([U;a]\).

###
27/05/2014, 13:30 — 14:30 — Sala P3.10, Pavilhão de Matemática

Andreas Döring, *Friedrich-Alexander-Universität Erlangen-Nürnberg*

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The Spectral Presheaf as the Spectrum of a Noncommutative Operator
Algebra

The spectral presheaf of a nonabelian von Neumann algebra or
C*-algebra was introduced as a generalised phase space for a
quantum system in the so-called topos approach to quantum theory.
Here, it will be shown that the spectral presheaf has many features
of a spectrum of a noncommutative operator algebra (and that it can
be defined for other classes of algebras as well). The main idea is
that the spectrum of a nonabelian algebra may not be a set, but a
presheaf or sheaf over the base category of abelian subalgebras. In
general, the spectral presheaf has no points, i.e., no global
sections. I will show that there is a contravariant functor from
the category of unital C*-algebras to a category of presheaves that
contains the spectral presheaves, and that a C*-algebra is
determined up to Jordan *-isomorphisms by its spectral presheaf in
many cases. Moreover, time evolution of a quantum system can be
described in terms of flows on the spectral presheaf, and
commutators show up in a natural way. I will indicate how combining
the Jordan and Lie algebra structures can lead to a full
reconstruction of nonabelian C*- or von Neumann algebra from its
spectral presheaf.

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26/05/2014, 15:30 — 16:30 — Sala P3.10, Pavilhão de Matemática

Paolo Bertozzini, *Thammasat University, Bangkok, Thailand*

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Higher Categories of Operator Algebras

A satisfactory marriage between “higher” categories and
operator algebras has never been achieved: although (monoidal)
C*-categories have been systematically used since the development
of the theory of superselection sectors, higher category theory has
more recently evolved along lines closer to classical higher
homotopy.

We present axioms for strict involutive \(n\)-categories (a
vertical categorification of dagger categories) and a definition
for strict higher C*-categories and Fell bundles (possibly equipped
with involutions of arbitrary depth), that were developed in
collaboration with Roberto Conti, Wicharn Lewkeeratiyutkul and
Noppakhun Suthichitranont.

In order to treat some very natural classes of examples arising
from the study of hypermatrices and hyper-C*-algebras, that would
be otherwise excluded by the standard Eckmann-Hilton argument, we
suggest a non-commutative version of exchange law and we also
explore alternatives to the usual globular and cubical
settings.

Possible applications of these non-commutative higher
C*-categories are envisaged in the algebraic formulation of
Rovelli's relational quantum theory, in the study of morphisms in
Connes' non-commutative geometry, and in our proposed “modular”
approach to quantum gravity (arXiv: 1007.4094).

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14/05/2014, 16:00 — 17:00 — Sala P4.35, Pavilhão de Matemática

Sara Tavares, *University of Nottingham, United Kingdom*

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Two-dimensional state sum models and spin structures

Topological field theories are very special in two dimensions:
they have been classified and provide a rich class of examples. In
this talk I will discuss a new state sum construction for these
models that considers not just the topology of surfaces but also
their spin structure. Emphasis is given to partition functions: I
will detail general properties of these manifold invariants and
discuss some non-trivial examples.

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02/04/2014, 16:00 — 17:00 — Sala P4.35, Pavilhão de Matemática

Aleksandar Mikovic, *Universidade Lusófona and Grupo de Física Matemática*

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2-BF Theories

We will describe 2-BF topological field theories, which are
categorical generalization of the BF theories. We will also explain
how to construct invariants of manifolds by using 2-BF theory path
integrals.

#### References

- João Faria Martins, Aleksandar Mikovic,. Lie crossed modules and
gauge-invariant actions for 2-BF theories. Adv. Theor. Math.
Phys. Volume 15, Number 4, 1059-1084 (2011).
- Aleksandar Mikovic, Marko Vojinovic, Poincaré 2-group and quantum
gravity,. Class. Quant. Grav. 29, 165003 (2012).

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01/04/2014, 11:30 — 12:30 — Sala P3.10, Pavilhão de Matemática

Zoran Škoda, *University of Zagreb*

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Coherent states for quantum groups

Quantum groups at roots of unity appear as hidden symmetries in
some conformal field theories. For this reason I. Todorov has (in
1990s) used coherent state operators for quantum groups to
covariantly build the field operators in Hamiltonian formalism. I
tried to mathematically found his coherent states by an analogy
with the Perelomov coherent states for Lie groups. For this, I use
noncommutative localization theory to define and construct the
noncommutative homogeneous spaces, and principal and associated
bundles over them. Then, in geometric terms, I axiomatize the
covariant family of coherent states which enjoy a resolution of
unity formula, crucial for physical applications. Even the simplest
case of quantum \(\operatorname{SL2}\) is rather involved and the
corresponding resolution of unity formula involves the Ramanujan's
\(q\)-beta integral. The correct covariant family differs from ad
hoc proposed formulas in several published papers by earlier
authors.

#### Ver também

lispr1.pdf

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12/03/2014, 16:00 — 17:00 — Sala P4.35, Pavilhão de Matemática

Marko Vojinovic, *Grupo de Fisica Matemática, Universidade de Lisboa*

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Introduction to renormalization in QFT (part III)

In the previous talk we discussed the renormalization procedure on
the example ${\varphi}^{4}$ scalar field theory. In this lecture we will
conclude the analysis of that example, construct the final
renormalized state sum, and discuss the renormalization group
equations. At the end we will give some final general remarks about
renormalization in QFT.

#### Ver também

https://math.tecnico.ulisboa.pt/seminars/download.php?fid=9

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26/02/2014, 16:00 — 17:00 — Sala P4.35, Pavilhão de Matemática

John Huerta, *IST, Lisbon*

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What can higher categories do for physics? Part II

In this follow up to last year's talk, we briefly review the
cobordism hypothesis that formed the subject of our first part, and
then outline its use for the existence and construction of field
theories, in particular Chern-Simons theory, as discussed in a 2009
paper of Freed, Hopkins, Lurie and Teleman.

###
22/01/2014, 16:30 — 17:30 — Sala P4.35, Pavilhão de Matemática

Marko Vojinovic, *Grupo de Fisica Matemática, Universidade de Lisboa*

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Introduction to renormalization in QFT (part II)

In the previous talk we gave an overview of the renormalization
procedure in Quantum Field Theory. In this lecture we will
demonstrate that abstract procedure on a simple explicit example,
the so-called ${\varphi}^{4}$ theory of a single real scalar field. We
will illustrate the construction of a renormalized state sum using
two different regularization schemes, construct the renormalization
group equations, and discuss some of their properties.

#### Ver também

2014-Lisbon-TQFTclub-Renormalization-Lecture.pdf

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18/12/2013, 16:30 — 17:30 — Sala P4.35, Pavilhão de Matemática

Marko Vojinovic, *Grupo de Fisica Matemática, Universidade de Lisboa*

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Introduction to renormalization in QFT

We will give an overview of the renormalization procedure in
Quantum Field Theory. The emphasis will be on the general idea of
constructing a finite QFT from the one plagued by divergencies, in
the standard perturbative approach, and discussing the uniqueness
of the resulting QFT. The lecture does not assume much background
knowledge in QFT, and should be accessible to a wide audience.

#### Ver também

https://math.ist.utl.pt/seminars/download.php?fid=9

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11/12/2013, 17:00 — 18:00 — Sala P4.35, Pavilhão de Matemática

Carlos Guedes, *AEI, Golm-Potsdam*

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The non-commutative Fourier transform for Lie groups

The phase space given by the cotangent bundle of a Lie group
appears in the context of several models for physical systems. In
quantum mechanics on the Euclidean space, the standard Fourier
transform gives a unitary map between the position representation
-- functions on the configuration space -- and the momentum
representation -- functions on the corresponding cotangent space.
That is no longer the case for systems whose configuration space is
a more general Lie group. In this talk I will introduce a notion of
Fourier transform that extends this duality to arbitrary Lie
groups.

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04/12/2013, 16:30 — 17:30 — Sala P4.35, Pavilhão de Matemática

Nuno Costa Dias, *Universidade Lusófona and GFM, Universidade de Lisboa*

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Quantum mechanics in phase space: The Schrödinger and the Moyal
representations

I will present some recent results on the dimensional extension of
pseudo-differential operators. Using this formalism it is possible
to generalize the standard Weyl quantization and obtain, in a
systematic way, several phase space (operator) representations of
quantum mechanics. I will present the Schrodinger and the Moyal
phase space representations and discuss some of their properties,
namely in what concerns the relation with deformation quantization.

###
27/11/2013, 16:30 — 17:30 — Sala P4.35, Pavilhão de Matemática

John Huerta, *Instituto Superior Técnico*

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What can higher categories do for physics?

We describe Baez and Dolan's cobordism hypothesis - a deep
connection between topological quantum field theory, higher
categories, and manifolds. Physically, this encodes the idea that
quantum field theories, even "topological" ones, should be local:
no matter how we cut up the spacetime on which they are defined in
order to perform the path integral, the net result must be the
same. Recently, this hypothesis was formulated and proved by Jacob
Lurie using the tools of homotopy theory. We describe the version
of the hypothesis he proved. Finally, we touch on Freed, Hopkins,
Lurie and Teleman's recent work on Chern-Simons theory, and on Urs
Schreiber's ideas for using Lurie's toolkit in full-fledged quantum
field theory.