David Blaschke mostly deals with Neutron star, Strange matter, Particle physics, Quark and Astrophysics. His Neutron star research includes themes of Stars and Equation of state. David Blaschke has researched Strange matter in several fields, including Maxwell construction, Diquark, Nuclear matter and Coupling.
His study in Particle physics is interdisciplinary in nature, drawing from both Compact star, Nuclear physics and Phase diagram. His Quark research incorporates themes from Meson, Pion and Quantum chromodynamics. The Astrophysics study combines topics in areas such as Neutron, Neutrino, Nuclear theory and Nucleon.
David Blaschke spends much of his time researching Particle physics, Strange matter, Quark, Neutron star and Hadron. His Particle physics research incorporates elements of Phase transition and Nuclear physics. David Blaschke interconnects Compact star, Diquark and Equation of state in the investigation of issues within Strange matter.
His Quark research is multidisciplinary, incorporating perspectives in Bound state and Quantum electrodynamics. To a larger extent, David Blaschke studies Astrophysics with the aim of understanding Neutron star. His research integrates issues of Resonance, Radius, Baryon and Nucleon in his study of Hadron.
David Blaschke focuses on Hadron, Particle physics, Neutron star, Strange matter and Phase transition. His Hadron study combines topics from a wide range of disciplines, such as Resonance, Radius, Equation of state and Deconfinement. His Neutron star research entails a greater understanding of Astrophysics.
His study explores the link between Strange matter and topics such as Nuclear matter that cross with problems in Virial expansion. His Phase transition study combines topics in areas such as Field, Range, Theoretical physics and Qcd phase diagram. David Blaschke combines subjects such as Meson, Cluster expansion and Baryon with his study of Quark.
David Blaschke mainly investigates Neutron star, Strange matter, Equation of state, Phase transition and Hadron. His study with Neutron star involves better knowledge in Astrophysics. Quark and Particle physics are closely tied to his Strange matter research.
The various areas that David Blaschke examines in his Equation of state study include Compact star and Critical phenomena. His biological study spans a wide range of topics, including Classical mechanics, Theoretical physics, Qcd phase diagram and Nuclear theory. His Hadron research integrates issues from Resonance, Radius, Quantum chromodynamics and Baryon.
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Composition and thermodynamics of nuclear matter with light clusters
S. Typel;G. Röpke;T. Klähn;T. Klähn;D. Blaschke.
Physical Review C (2010)
Constraints on the high-density nuclear equation of state from the phenomenology of compact stars and heavy-ion collisions
T. Klähn;T. Klähn;D. Blaschke;S. Typel;E. N. E. van Dalen.
Physical Review C (2006)
Astrophysics: quark matter in compact stars?
M. Alford;D. Blaschke;D. Blaschke;A. Drago;T. Klähn.
A Quantum Kinetic Equation for Particle Production in the Schwinger Mechanism
S. Schmidt;D. Blaschke;G. Röpke;S. A. Smolyansky.
International Journal of Modern Physics E-nuclear Physics (1998)
Hadron production in ultra-relativistic nuclear collisions: Quarkyonic matter and a triple point in the phase diagram of QCD
A. Andronic;D. Blaschke;P. Braun-Munzinger;J. Cleymans.
Nuclear Physics (2010)
AB INITIO EQUATION OF STATE DATA FOR HYDROGEN, HELIUM, AND WATER AND THE INTERNAL STRUCTURE OF JUPITER
Nadine Nettelmann;Bastian Holst;André Kietzmann;Martin French.
The Astrophysical Journal (2008)
Phase diagram of three-flavor quark matter under compact star constraints
D. Blaschke;Sverker Fredriksson;H. Grigorian;A.M. Öztas.
Physical Review D (2005)
Implications from GW170817 and I-Love-Q relations for relativistic hybrid stars
Vasileios Paschalidis;Kent Yagi;David Alvarez-Castillo;David B. Blaschke;David B. Blaschke;David B. Blaschke.
Physical Review D (2018)
Quark exchange model for charmonium dissociation in hot hadronic matter
K. Martins;D. Blaschke;E. Quack.
Physical Review C (1995)
Symmetry Energy of Dilute Warm Nuclear Matter
Natowitz Jb;Röpke G;Typel S;Blaschke D.
Physical Review Letters (2010)
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