Dec. 1, 2013 — Until now, scientists were pretty sure they knew how the surface of a neutron star -- a super dense star that forms when a large star explodes and its core collapses into itself -- can heat itself up.
However, research by a team of scientists led by a Michigan State University physicist has researchers rethinking that.
However, writing in the journal Nature, Hendrik Schatz and colleagues report results from theoretical calculations that identify previously unknown layers where nuclear reactions within the crust cause rapid neutrino cooling. Neutrinos are elementary particles created through radioactive decay that pass quickly through matter.
"These cooling layers are pretty shallow beneath the surface," said Schatz, a professor of physics and astronomy. "If heat from deeper within the star comes up, it hits this layer and never makes it to the surface."
Schatz said this discovery produces more questions than answers.
"This completely changes the way we think about the question of the star's hot surface," he said. "It's a big puzzle now."
"Many nuclei are round, and that suppresses the neutrino cooling," said Sanjib Gupta, co-author and faculty member at IIT Ropar in India. "In this case, the nuclei are predicted by theorists to be 'deformed,' more football-shaped."
This study also points to the discovery potential of the Facility for Rare Isotope Beams. FRIB will be a new U.S. Department of Energy Office of Science national user facility built on the MSU campus. It is exactly these types of nuclei that researchers could examine in the facility.
This work was enabled by the Joint Institute for Nuclear Astrophysics. JINA is a National Science Foundation Physics Frontiers Center on Nuclear Astrophysics that promotes collaboration between astrophysicists and nuclear physicists. MSU is one of the core institutions of JINA.
Schatz's co-authors were Gupta; Peter Möller from Los Alamos National Lab; Mary Beard and Michael Wiescher from the University of Notre Dame; Edward Brown, Alex Deibel, Laurens Keek, and Rita Lau from MSU; Leandro Gasques from the Universidade de Sao Paulo; William Hix from Oak Ridge National Laboratory and the University of Tennessee; and Andrew Steiner from the University of Washington.
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