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The slope, the hill, the drop, and the swoosh: Learning about the nuclear matter equation of state from the binary Love relations

Analyses that connect astrophysical observations of neutron stars with nuclear matter properties sometimes rely on equation-of-state insensitive relations. We show that the slope of the binary Love relations (i.e.~between the tidal deformabilities of binary neutron stars) encodes the rate of change of the nuclear matter speed of sound below three times nuclear saturation density. Twin stars lead to relations that present a signature ''hill'', ''drop'', and ''swoosh'' due to the second (mass-radius) stable branch, requiring a new description of the binary love relations.

preprint2021arXivOpen access
Hung TanVeronica DexheimerJacquelyn Noronha-HostlerNicolas Yunes
astro-ph.HEgr-qcnucl-th
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Hung TanVeronica DexheimerJacquelyn Noronha-HostlerNicolas Yunes

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