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Past Events
- "Nuclear pasta observables" (Matthew Caplan, Indiana University) -
- "Molecular dynamics simulations of nuclear pasta" (Claudio Dorso, University of Buenos Aires) -
- "Quantum simulations of nuclear pasta" (William Newton, Texas A&M University-Commerce) -
- "Quark matter in magnetic fields" (Srimoyee Sen, University of Arizona) -
- "Transport properties in magnetic fields" (Ho-Ung Yee, University of Illinois at Chicago) -
- "Damping of r-modes via phase conversion" (Sophia Han, The University of Tennessee, Knoxville) -
- "r-modes" (Nils Andersson, University of Southampton) -
- "Instabilities in two-component superfluids" (Alexander Haber, Institute for Theoretical Physics) -
- "Pulsar glitches and EOS" (Ilaria Caiazzo, University of British Columbia) -
- "Constraining Superfluidity in Dense Matter from the Cooling of Isolated Neutron Stars" (Spencer Beloin, University of Tennessee) -
- "Vortex pinning" (Kazuyuki Sekizawa,, Warsaw University of Technology) -
- "Exploring phases with transport coefficients" (Sreemoyee Sarkar, TIFR) -
- "Phases, EOS, cooling of compact stars" (Armen Sedrakian, University of Frankfurt) -
- "Thermal and transport properties of neutron star matter" (Sanjay Reddy, Institute for Nuclear Theory) -
- "Nuclear structure beyond the stability valley and its impact on electron capture rates during core-collapse" (Adriana Raduta, IFIN) -
- "Deconfinement phase transition in hot and dense matter" (Veronica Dexheimer, Kent State University) -
- "Supernova neutrinosphere; neutrino transport; protoneutron star formation and evolution" (Tobias Fischer, Institute of Theoretical Physics) -
- "Neutron star radii and core-crust transition" (Morgane Fortin, N. Copernicus Astronomical Center, Polish Academy of Sciences) -
- "Quark Matter in Neutron Stars" (Mark Alford, Washington University) -
- "Neutron Stars Masses" (Scott Ransom, National Radio Astronomy Observatory) -
- "Transport properties of superfluids" (Thomas Schaefer, North Carolina State University) -
- "Hydrodynamics and instabilities of multi-(super)fluids" (Andreas Schmitt, University of Southampton) -
- "Extraction of pinning force between quantized vortex and nucleus in superfluid nuclear matter" (Gabriel Wlazlowski, Warsaw University of Technology) -
- "Observational constraints on superfluid parameters" (Nils Andersson, University of Southampton) -
- "R-mode astronomy" (Kai Schwenzer, University of Tuebingen) -
- "Shear viscosity of crystalline superconductors" (Rishi Sharma, Tata Institute of Fundamental Research) -
- "Transport coefficients of npemu matter in NS cores / Neutron star cooling" (Petr Shternin, Ioffe Institute) -
- "Neutron star seismology/ X-ray burst oscillation" (Simin Mahmoodifar, NASA/GSFC) -
- "Towards an Interpretation of Neutron Star Seismology" (Anna Watts, Anton Pannekoek Astronomical Institute) -
- "* QED and neutron stars * / Reconnection in SGR bursts" (Jeremy Heyl, University of British Columbia) -
- "Using quasi-persistent transients to constrain properties of the neutron star crust /Neutrino cooling reactions in the accreted neutron star crust" (Edward Brown, Michigan State University) -
- "Neutron skin measurements and its constraints for neutron matter" (Chuck Horowitz, Indiana University) -
- "Isoscalar and Isovector Densities and Symmetry Energy" (Pawel Danielewicz, Michigan State University) -
- "Symmetry energy at supersaturation density" (Betty Tsang, Michigan State University) -
- "Finite density QCD from a three-dimensional effective lattice theory" (Owe Philipsen, Goethe University of Frankfurt) -
- "Dense baryonic matter and functional renormalisation group" (Wolfram Weise, Technical University of Munich) -
- "Dense Matter Equation of State from Observations" (James Lattimer, Stony Brook University) -
- "Future X-ray and gravitational wave measurements of neutron star masses and radii" (Cole Miller, University of Maryland) -
- "Dense matter in gravitational wave sources" (Jocelyn Read, California State University Fullerton) -
- "Effects of rotation on neutron star radius determinations" (Sharon Morsink, University of Alberta) -
- "Determining neutron star parameters from cooling phases of X-ray bursts" (Juri Poutanen, University of Turku) -
- "Constraining the properties of neutron star matter using X-ray oscillations" (Frederick Lamb, University of Illinois) -
- "Quark deconfinement in neutron stars" (Fridolin Weber, San Diego State University) -
- "EoS from spectral fits of X-ray burst cooling tails" (Joonas Nattila, University of Turku, Tuorla Observatory) -
- “From Neutron Star Observables to the Dense Matter Equation of State” (Carolyn Raithel, University of Arizona) -
- Empirical equation of state and X-ray observations of neutron stars” (Nicolas Baillot d'Etivaux, Institut de physique nucléaire Lyon) -
- "Deconfinement at high temperatures and moderately high baryon densities" (Peter Petreczky, Brookhaven National Lab) -
- "Gravitational waves and the equation of state" (Sukanta Bose, Washington State University) -
- "Equation of state and symmetry energy from heavy ion collisions" (Bill Lynch, Michigan State University) -
- "Equation of state from Chiral Effective Field Theory" (Jeremy Holt, Texas A&M) -