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2016-11-25 (Piątek)
Zapraszamy do sali 1.40, ul. Pasteura 5 o godzinie 11:15 
Tomasz Pawłowski (CFT PAN, Warszawa)Feasibility of probing the quantum universe dynamics through midisuperspaces in loop quantization
Recent developments in the so called midisuperspace approach to loop quantum gravity/cosmology, involving in particular the abelianization of the constraint algebra, has given high hopes for probing the genuine quantum dynamics at least in some scenarios in (nonlinear inhomogeneous) cosmology and black holes/matter collapse. Focusing on the application of this procedure to the cosmological model of a Gowdy universe with local rotational symmetry I am going to discuss the method's strengths and weaknesses. In particular I will focus on the issue of reproducing the General Relativity as the low energy limit of this model.
2016-11-18 (Piątek)
Zapraszamy do sali 1.40, ul. Pasteura 5 o godzinie 11:15
Istvan Racz (Wigner RCP, Budapeszt)A new method of constructing binary black hole initial data
By applying a parabolic-hyperbolic formulation of the constraints and superposing Kerr-Schild black holes, a simple method is introduced to initialize time evolution of binary systems. As the input parameters are essentially the same as those used in the post-Newtonian (PN) setup the proposed method interrelates various physical expressions applied in PN and in fully relativistic formulations. The global ADM charges are also determined by the input parameters, and no use of boundary conditions in the strong field regime is made.
2016-11-04 (Piątek)
Zapraszamy do sali 1.40, ul. Pasteura 5 o godzinie 11:15
Krzysztof Belczyński (OAUW)Evolutionary predictions in the advanced LIGO/Virgo era
2016-10-28 (Piątek)
Zapraszamy do sali 1.40, ul. Pasteura 5 o godzinie 11:15
Suzanne Lanery (UNAM, Morelia, México)Polarization-less quantization of free field theories
The phase space of a classical free field theory is a symplectic vector space V. Choosing a complex structure (polarization) turns V into a complex Hilbert space H, and the Fock space built on H provides a quantization of V. When V is finite-dimensional, the Fock representations built from different polarizations are equivalent (as a consequence of the Stone-von Neumann theorem), but this is no longer true in the infinite-dimensional case. By constructing the state space of a quantum field theory as a projective limit of simpler building blocs (truncations), it is possible to lift the Stone-von Neumann theorem to the infinite-dimensional case. Carefully selecting a "dense" collection of truncations yields a quantum state space which is at the same time universal (it encompasses at once all "reasonable" Fock spaces, and supports arbitrarily good implementations of all bounded linear symplectomorphisms of V) and constructive (all states can be constructed in a systematic way, in contrast eg. to generic algebraic states).
2016-10-21 (Piątek)
Zapraszamy do sali 1.40, ul. Pasteura 5 o godzinie 11:15
Adam Szereszewski (IFT UW)Kundt's metrics
2016-10-14 (Piątek)
Zapraszamy do sali 1.40, ul. Pasteura 5 o godzinie 11:15
Andrzej Krasiński (CAMK PAN, Warszawa)Blueshifts in the Lemaitre-Tolman and quasi-spherical Szekeres models
2016-10-07 (Piątek)
Zapraszamy do sali 1.40, ul. Pasteura 5 o godzinie 11:15
Jędrzej Świeżewski (IFT UW)Observer's observables. Residual diffeomorphisms
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