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Calendar of Physics Talks Vienna
| Holographic Entanglement Density |
| Speaker: | Nikola Gushterov (Oxford U.) |
| Abstract: | We will study the way in which the entanglement entropy of a holographic quantum system becomes the thermodynamic entropy, at finite temperature, as we vary the size of the entangling region. For this purpose, we will concentrate on the holographic entanglement entropy using the Ryu-Takyanagi prescription. We will study the holographic entanglement per unit volume, to understand how the Infrared degrees of freedom can affect the way in which the entanglement entropy becomes extensive. In particular, we will show that the holographic entanglement density will become over-extensive and develop a peak, for intermediate scales.
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| Date: | Tue, 05.12.2017 |
| Time: | 14:00 |
| Duration: | 60 min |
| Location: | SEM 136, TU Wien, Freihaus, 10th floor (Wiedner Hauptstr. 8-10, A-1040 Vienna) |
| Contact: | Daniel Grumiller and Stefan Fredenhagen |
| Gravity, blackbody radiation and chameleons – Towards lattice atom interferometry |
| Speaker: | Dr. Philipp Haslinger (Berkeley, Department of Physics, University of California) |
| Abstract: | Within the last decades atom interferometry has proven its surprising versatility to sense with high precision tiniest forces. In this talk I will give an overview of our recent work using an optical cavity enhanced atom interferometer to sense with gravitational strength for fifths forces and for an on the first-place counterintuitive inertial property of blackbody radiation. I will conclude with perspectives on the next generations of optically levitated atom interferometric sensors.
If dark energy, which drives the accelerated expansion of the universe, consists of a light scalar field it might be detectable as a “fifth force” between normal-matter objects. In order to... [for full abstract please visit: https://indico.smi.oeaw.ac.at/event/253/ ] |
| Date: | Wed, 06.12.2017 |
| Time: | 17:00 |
| Duration: | 60 min |
| Location: | Stefan-Meyer-Institut, Boltzmanngasse 3, 1090 Wien, Seminarraum 3-2-08 (2. Stock) |
| Contact: | Prof. Dr. Eberhard Widmann, Dr. Martin Simon |
| Nonvacuum stability of the Milne universe |
| Speaker: | David Fajman (Vienna) |
| Abstract: | The Milne model is the only cosmological vacuum solution to Einstein’s equations
(with vanishing cosmological constant) that is known to be nonlinearly (future-)
stable due to the work of Andersson-Moncrief. We present a first generalisation
of this result to the nonvacuum case, namely to the Einstein-Vlasov system.
In particular, we introduce a new idea to combine earlier approaches to control
massive collisionless matter in cosmological spacetimes with a physically
motivated estimate that is necessary to establish sufficient decay properties
of the matter field. This is joint work with Lars Andersson (Golm).
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| Date: | Thu, 07.12.2017 |
| Time: | 14:00 |
| Duration: | 60 min |
| Location: | Arbeitsgruppe Gravitation, Währinger Strasse 17, Raum 218, 2. Stock, 1090 Wien |
| Contact: | P.T. Chrusciel |
| Inflationary cosmology from quantum Conformal Gravity |
| Speaker: | Petr Jizba (FNSPE, Czech Technical University in Prague & ITP, Freie Universitaet in Berlin) |
| Abstract: | In my talk I will set up the functional integral for quantum Conformal Gravity and show that with the help of a Hubbard-Stratonovich transformation, the action can be broken into a local quadratic-curvature theory coupled to a scalar field. A one-loop effective action calculation reveals that strong fluctuations of the metric field are capable of spontaneously generating a dimensionally transmuted
parameter which, in the weak-field sector of the broken phase, induces a Starobinsky-type f(R)-model with a gravi-cosmological constant. I will highlight a non-trivial relation between Starobinsky's parameter and the gravi-cosmological constant that is obtained in the broken phase. Finally, implications for cosmic inflation will be briefly discussed
and compared with the recent BICEP2/Keck Array data.
Ref.: P.Jizba, H.Kleinert and F.Scardigli, Eur. Phys. J. C (2015)
75:245
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| Date: | Thu, 07.12.2017 |
| Time: | 16:00 |
| Duration: | 60 min |
| Location: | SEM 136, TU Wien, Freihaus, 10th floor (Wiedner Hauptstr. 8-10, A-1040 Vienna) |
| Contact: | Daniel Grumiller |
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