Strangeness, Gravitational waves and neutron stars
Friday, 10 June 2016 -
09:30
Monday, 6 June 2016
Tuesday, 7 June 2016
Wednesday, 8 June 2016
Thursday, 9 June 2016
Friday, 10 June 2016
09:30
Registrations and Welcome
Registrations and Welcome
09:30 - 10:00
Room: Aula Direzione (Ed. 1)
10:00
The first detection of gravitational waves
-
Viviana Fafone
(
ROMA2
)
The first detection of gravitational waves
Viviana Fafone
(
ROMA2
)
10:00 - 11:00
Room: Aula Direzione (Ed. 1)
11:00
The physics of Binary Neutron Star merger from general relativistic numerical simulations.
-
Alessandra Feo
(
INFN
)
The physics of Binary Neutron Star merger from general relativistic numerical simulations.
Alessandra Feo
(
INFN
)
11:00 - 11:45
Room: Aula Direzione (Ed. 1)
Abstract: In this talk I will focus on the physics of Binary Neutron Stars merger obtained from numerical simulations of the Einstein equations coupled to matter. The results are obtained using a semi-realistic descriptions of the equation of state (EOS), where the EOS is described by a seven-segment piece-wise polytropic and a thermal component. One of the important characteristics of the present investigation is that it is entirely performed using only publicly available open source software, the Einstein Toolkit for the dynamical evolution and the LORENE code for the generation of the initial models. After the gravitational-wave event GW150914, observed by the LIGO/Virgo collaboration, the new eve of Gravitational Wave physics has just began and it is clear that accurate modelling of the gravitational wave signal emitted by compact binary sources will play a prominent role. In particular I will present results for the gravitational wave-signal obtained from three-dimensional numerical simulations of the dynamics of binary neutron star (BNS) mergers from the late stage of the inspiral process up to about 20 ms after the system has merged, either to form a hyper-massive neutron star (NS) or a rotating black hole (BH).
11:45
Coffee Break
Coffee Break
11:45 - 12:00
Room: Aula Direzione (Ed. 1)
12:00
Random Matrix Models and Finite Density QCD
-
Jacobus Verbaarschot
(
Stony Brook University
)
Random Matrix Models and Finite Density QCD
Jacobus Verbaarschot
(
Stony Brook University
)
12:00 - 12:45
Room: Aula Direzione (Ed. 1)
12:45
Cold asymmetric quark matter
-
Massimo Mannarelli
Cold asymmetric quark matter
Massimo Mannarelli
12:45 - 13:30
Room: Aula Direzione (Ed. 1)
Asymmetric matter having nonvanishing isospin and/or strangeness chemical potential can be studied by different methods. For asymptotic values of the chemical potentials, perturbative QCD methods and future lattice QCD simulation may have significant overlap. For non-extreme values of the asymmetry, chiPT, lattice QCD simulations and NJL-like models can be used. The meson condensed phases will be examined focusing on the interplay between chiPT methods and lattice QCD simulations. The possible BEC-BCS crossover will be discussed by a simple thermodynamic analysis.
13:30
Lunch
Lunch
13:30 - 14:30
Room: Aula Direzione (Ed. 1)
14:30
Strangeness studies on DAFNE collider to unlock secrets of neutron stars
-
Catalina Oana Curceanu
(
LNF
)
Kristian Piscicchia
(
LNF
)
Strangeness studies on DAFNE collider to unlock secrets of neutron stars
Catalina Oana Curceanu
(
LNF
)
Kristian Piscicchia
(
LNF
)
14:30 - 15:15
Room: Aula Direzione (Ed. 1)
15:15
Quark deconfinement in neutron stars and astrophysical implications
-
Ignazio Bombaci
(
PI
)
Quark deconfinement in neutron stars and astrophysical implications
Ignazio Bombaci
(
PI
)
15:15 - 16:00
Room: Aula Direzione (Ed. 1)
16:00
Coffee Break
Coffee Break
16:00 - 16:30
Room: Aula Direzione (Ed. 1)
16:30
Signature in the gravitational wave signal of the two-families scenario: the merger of two neutron stars
-
Alessandro Drago
(
LNF
)
Signature in the gravitational wave signal of the two-families scenario: the merger of two neutron stars
Alessandro Drago
(
LNF
)
16:30 - 17:15
Room: Aula Direzione (Ed. 1)
17:15
Towards Gravitational-Wave Asteroseismology
-
Omar Benhar Noccioli
(
ROMA1
)
Towards Gravitational-Wave Asteroseismology
Omar Benhar Noccioli
(
ROMA1
)
17:15 - 18:00
Room: Aula Direzione (Ed. 1)