no code implementations • 17 Dec 2021 • Matteo Torcoli, Christian Simon, Jouni Paulus, Davide Straninger, Alfred Riedel, Volker Koch, Stefan Wits, Daniela Rieger, Harald Fuchs, Christian Uhle, Stefan Meltzer, Adrian Murtaza
To address this, Fraunhofer IIS has developed a deep-learning solution called Dialog+, capable of enabling speech level personalization also for content with only the final audio tracks available.
no code implementations • 12 Mar 2021 • Agnieszka Sorensen, Dmytro Oliinychenko, Volker Koch, Larry McLerran
We present a method that may allow an estimate of the value of the speed of sound as well as its logarithmic derivative with respect to the baryon number density in matter created in heavy-ion collisions.
Nuclear Theory
1 code implementation • 6 Jan 2021 • Volodymyr Vovchenko, Volker Koch
In this note we discuss subtleties associated with the efficiency corrections for measurements of off-diagonal cumulants and factorial moments for a situation when one deals with overlapping sets of particles, such as correlations between numbers of protons and positively charged particles.
Nuclear Theory High Energy Physics - Phenomenology Nuclear Experiment
1 code implementation • 8 Jul 2020 • Volodymyr Vovchenko, Roman V. Poberezhnyuk, Volker Koch
We analyze the behavior of cumulants of conserved charges in a subvolume of a thermal system with exact global conservation laws by extending a recently developed subensemble acceptance method (SAM) [V. Vovchenko et al., arXiv:2003. 13905] to multiple conserved charges.
High Energy Physics - Phenomenology Nuclear Experiment Nuclear Theory
1 code implementation • 31 Mar 2020 • Volodymyr Vovchenko, Oleh Savchuk, Roman V. Poberezhnyuk, Mark I. Gorenstein, Volker Koch
We derive the relation between cumulants of a conserved charge measured in a subvolume of a thermal system and the corresponding grand-canonical susceptibilities, taking into account exact global conservation of that charge.
High Energy Physics - Phenomenology Nuclear Experiment Nuclear Theory
1 code implementation • 22 Jan 2020 • Dmytro Oliinychenko, Shuzhe Shi, Volker Koch
Many simulations of relativistic heavy ion collisions involve the switching from relativistic hydrodynamics to kinetic particle transport.
High Energy Physics - Phenomenology Nuclear Theory
1 code implementation • 26 Feb 2019 • Dmytro Oliinychenko, Volker Koch
We present a sampling method for the transition from relativistic hydrodynamics to particle transport, commonly referred to as particlization, which preserves the local event-by-event conservation of energy, momentum, baryon number, strangeness, and electric charge.
High Energy Physics - Phenomenology Nuclear Theory