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Accueil du site > Projets de recherche financés en cours > Projet ERC Philosophie de la Gravitation Quantique Canonique > Séminaire de philosophie et physique-mathématique 2015-2016 > Seminar of Philosophy and mathematical physics 2012–2013

Seminar of Philosophy and mathematical physics 2012–2013

ERC PROJECT PHILOSOPHY OF CANONICAL QUANTUM GRAVITY



To the programme of the current year.
Archives : 2015–2016, 2014–2015, 2013–2014.




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Working Group of the Project, organisation : Gabriel Catren, Julien Page, Federico Zalamea (SPHERE, CNRS, Univ. Paris Diderot)
Contact : gabriel.catren((at))univ-paris-diderot.fr


Abstracts

10/07/2013 - 10:30 room Alechinsky, 437A Federico Holik An Introduction to Quantum Logic and Quantum Probabilities, V
03/07/2013 - 10:30 room Alechinsky, 437A Federico Holik An Introduction to Quantum Logic and Quantum Probabilities , IV
26/06/2013 - 10:30 room Gris, 734A Federico Holik An Introduction to Quantum Logic and Quantum Probabilities , III
19/06/2013 - 10:30 room Gris, 734A Federico Holik An Introduction to Quantum Logic and Quantum Probabilities , II
12/06/2013 - 10:30 room Gris, 734A Federico Holik An Introduction to Quantum Logic and Quantum Probabilities , I
29/03/2013 - 10:30 room Kupka, 512A Federico Zalamea An Introduction to Canonical Quantum Gravity, IV
27/03/2013 - 10:30 room Gris, 734A Federico Zalamea An Introduction to Canonical Quantum Gravity, III
20/03/2013 - 10:30 room Gris, 734A Federico Zalamea An Introduction to Canonical Quantum Gravity, II
13/03/2013 - 10:30 room Gris, 734A Federico Zalamea An Introduction to Canonical Quantum Gravity, I
06/03/2013 - 10:30 room Gris, 734A Corentin Le Fur Clifford Algebras and Spinors, IV
27/02/2013 - 10:30 room Gris, 734A Corentin Le Fur Clifford Algebras and Spinors III
20/02/2013 - 10:30 room Gris, 734A Corentin Le Fur Clifford Algebras and Spinors II
13/02/2013 - 10:30 room Gris, 734A Corentin Le Fur Clifford Algebras and Spinors, I
06/02/2013 - 10:30 room Gris, 734A Julien Page An Introduction to Hopf Algebras, IV
30/01/2013 - 10:30 room Gris, 734A Julien Page An Introduction to Hopf Algebras , III
23/01/2013 - 10:30 room Gris, 734A Julien Page An Introduction to Hopf Algebras , II
18/01/2013 - 10:30 room Rothko, 412B Julien Page An Introduction to Hopf Algebras , I
09/01/2013 - 10:30 room Kupka, 512A Gabriel Catren The Theory of Cartan Connections, IV
19/12/2012 - 10:30 room Gris, 734A Gabriel Catren The Theory of Cartan Connections , III
12/12/2012 - 10:30am room Gris, 734A Gabriel Catren The Theory of Cartan Connections , II


Abstracts :


12/06/2013 – 10/07/2013 An Introduction to Quantum Logic and Quantum Probabilities
by Federico Holik
The logic-algebraic approach to quantum mechanics provides a formal framework in which almost all foundational and interpretational problems can be posed and treated in a rigorous way. Its scope is not restricted to non-relativistic quantum mechanics, but can be extended to relativistic quantum field theory providing an axiomatic formulation. It also provides a natural formal framework for the study of a generalized probability theory, which includes Kolmogorovian and quantum probabilities as particular cases of a vast family. In this seminar we will provide an introduction to quantum logic and the algebraic approach to quantum mechanics. Projective valued measures (PVMs) and positive operator valued measures (POVMs) will be discussed, followed by a review of elementary notions of lattice theory. Next, the relationship between lattice theory and von Neumann algebras will be discussed in connection to the problems posed by von Neumann regarding quantum probabilities. In particular, we will discuss non commutative probability theory and the convex operational approach to statistical theories. The seminar will consist of 5 sessions. The above mentioned contents will be covered in first three sessions, while the 4th and 5th are left open to discuss topics inspired by the questions and problems which emerge from the three former ones.

Bibliographie :
  • M. L. Dalla Chiara, R. Giuntini, and R. Greechie, Reasoning in Quantum Theory (Kluwer Acad. Pub., Dordrecht, 2004)
  • G. Kalmbach, Orthomodular Lattices (Academic Press, San Diego, 1983)
  • M. Redei “The Birkhoff-von Neumann Concept of quantum Logic"
  • E. G. Beltrametti and G. Cassinelli, The Logic of Quantum Mechanics (Addison-Wesley, Reading, 1981)
  • M. Rédei, Quantum Logic in Algebraic Approach (Kluwer Academic Publishers, Dordrecht, (1998)
  • S. P. Gudder, Stochastic Methods in Quantum Mechanics (North Holland, New York – Oxford 1979)
  • G. Mackey, Mathematical foundations of quantum mechanics (New York : W. A. Benjamin, 1963)
  • V. Varadarajan, Geometry of Quantum Theory I (van Nostrand, Princeton, 1968).



13/03/2013 – 29/03/2013 An Introduction to Canonical Quantum Gravity
by Federico Zalamea
Canonical Quantum Gravity relies mainly on two ideas : on the one hand, the fact that fundamental object of General Relativity can be considered to be a connexion rather than a metric, establishing thus a close analogy with Yang-Mills theories ; on the other hand, Dirac’s canonical quantization program for constrained Hamiltonian systems (called Refined Algebraic Quantization in its modern version). The goal of this lectures will be to present the first steps in the construction of the theory, paying special attention to the underlying mathematical structures and to the concepts that seem to be most important. More in detail, we will first show how Ashtekar variables (which constitute the starting point of the theory) can be understood in the light of Cartan’s theory of connexions. Then, we will apply Dirac’s procedure in order to build the quantum states space and we will introduce the notion of a spin network.



Bibliography :

  • S. Gielen and D. Wise, Lifting General Relativity to Observer Space, arXiv:1210.0019
  • T. Thiemann, Lectures on Loop Quantum Gravity, arXiv:gr-qc/0210094
  • A. Ashtekar, Background Independent Quantum Gravity : A Status Report, arXiv:gr-qc/0404018



13/02/2013 – 06/03/2013 Clifford Algebras and Spinors
by Corentin Le Fur
Spinors are complex mathematical entities and play an important role in mathematical and theoretical physics. In their mathematical form, they were introduced by Cartan in 1913. The word « Spinor » seems to have been used for the first time by Ehrenfest and Wolfgang Pauli inaugurated its use in mathematical physics in 1927.
This course has two main goals : on the one hand, to build in a mathematical and rigorous way the notion of spinor and, on the other hand, inspire a conceptual and philosophical analysis of this notion.
We will begin by the study of Clifford Algebras defined by quadratic forms and will examine a few particular cases. Then, we will look at orthogonal and spin groups which will lead us to the concept of spinors space. Fundamental algebraic structures (as monoid, group, ring, algebra, field...) are considered as known.



18/01/2013 – 06/02/2013 An Introduction to Hopf Algebras
by Julien Page
Hopf Algebras define a very rich algebraic structure, playing a crucial role in many fields of mathematics and mathematical physics, specially in non-commutative geometry. We will show how this notion solves a duality default of the category of finite groups by extending the Pontryagin duality of the category of abelian finite groups. Next, we will show how this algebraic structure generalizes the structure of a group and its concomitant notion : symmetry. (As an algebraic structure, it is a generalization by the existence of a generalized notion of an inverse, by its "actions" on mathematical objects, by the "integrals" it helps to define, etc). Finally, we will make use of this structure to analyze the notion of duality, focusing mainly in the (crucial for physics) duality between space of states and algebra of observables.
We will suppose that the following mathematical notions are already familiar to the audience : group, ring, field, module, vector space, algebra, tensorial product, category, functor.

Bibliography : to start, we will follow the notes downloadable here (in French) : http://math.univ-bpclermont.fr/ bic... and we will refer to the beginning of Shahn Majid’s book : Foundations of Quantum Group Theory, Cambridge University Press, 2000



12/12/2012–09/01/2013 The Theory of Cartan Connections
by Gabriel Catren While Ehresmann connections are the geometric object used to represent the "gauge fields" of the Yang-Mills theory (giving a geometric description of the electromagnetic and nuclear interactions), the Cartan connections enable a reformulation (and a generalization) of General Relativity in such a way that the fundamental variable of the theory will no longer be the space-time metric but will be a connection instead. This reformulation gives new perspectives to the program trying to understand General Relativity as a "gauge theory", i.e. as a theory describing a dynamical connection on a fiber bundle over space-time. We will show in which precise manner General Relativity (and its generalization : the Einstein-Cartan theory) is the result of the "locality" of the affine group acting transitively on the vacuum solution of the theory (Poincaré, de Sitter or anti-de Sitter groups)













This project has received funding from the European Union’s Seventh Framework Programme (FP7/2007-2013) for research, technological development and demonstration under grant agreement n° 263523 (Project Philosophy of Canonical Quantum Gravity)