E
E. N. E. van Dalen
Researcher at University of Tübingen
Publications - 23
Citations - 1158
E. N. E. van Dalen is an academic researcher from University of Tübingen. The author has contributed to research in topics: Nuclear matter & Nucleon. The author has an hindex of 13, co-authored 23 publications receiving 1054 citations. Previous affiliations of E. N. E. van Dalen include University of Barcelona.
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Constraints on the high-density nuclear equation of state from the phenomenology of compact stars and heavy-ion collisions
Thomas Klähn,Thomas Klähn,David Blaschke,Stefan Typel,E. N. E. van Dalen,Amand Faessler,C. Fuchs,Theodoros Gaitanos,Hovik Grigorian,Hovik Grigorian,A. Ho,Evgeni E. Kolomeitsev,M. C. Miller,Gerd Röpke,J. Trümper,D. N. Voskresensky,Fridolin Weber,H. H. Wolter +17 more
TL;DR: In this article, a new scheme for testing nuclear matter equations of state (EoSs) at high densities using constraints from neutron star phenomenology and a flow data analysis of heavy-ion collisions is suggested.
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Effective Nucleon Masses in Symmetric and Asymmetric Nuclear Matter
TL;DR: The momentum and isospin dependence of the in-medium nucleon mass are studied and the nonrelativistic mass shows a distinct peak around the Fermi momentum.
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The relativistic Dirac–Brueckner approach to asymmetric nuclear matter
TL;DR: In this article, the properties of asymmetric nuclear matter have been investigated in a relativistic Dirac-Brueckner-Hartree-Fock framework using the Bonn A potential.
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Constraining hypernuclear density functional with Λ-hypernuclei and compact stars
TL;DR: In this paper, the authors present a simultaneous calculation of heavy single-Λ hypernuclei and compact stars containing hypernuclear core within a relativistic density functional theory based on a Lagrangian which includes the hyperon octet and lightest isoscalar-isovector mesons which couple to baryons with densitydependent couplings.
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Momentum, density, and isospin dependence of symmetric and asymmetric nuclear matter properties
TL;DR: In this article, the relativistic Dirac-Brueckner-Hartree-Fock approach based on projection techniques using the Bonn A potential was used to study the momentum, density, and isospin dependence of the optical potentials and nucleon effective masses.