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Article overview
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Origin of the heavy elements in binary neutron-star mergers from a gravitational wave event | Daniel Kasen
; Brian Metzger
; Jennifer Barnes
; Eliot Quataert
; Enrico Ramirez-Ruiz
; | Date: |
16 Oct 2017 | Abstract: | The cosmic origin of the elements heavier than iron has long been uncertain.
Theoretical modelling shows that the matter that is expelled in the violent
merger of two neutron stars can assemble into heavy elements such as gold and
platinum in a process known as rapid neutron capture (r-process)
nucleosynthesis. The radioactive decay of isotopes of the heavy elements is
predicted to power a distinctive thermal glow (a ’kilonova’). The discovery of
an electromagnetic counterpart to the gravitational-wave source GW170817
represents the first opportunity to detect and scrutinize a sample of freshly
synthesized r-process elements. Here we report models that predict the detailed
electromagnetic emission of kilonovae and enable the mass, velocity and
composition of ejecta to be derived from the observations. We compare the
models to the optical and infrared radiation associated with GW170817 event to
argue that the observed source is a kilonova. We infer the presence of two
distinct components of ejecta, one composed primarily of light (atomic mass
number less than 140) and one of heavy (atomic mass number greater than 140)
r-process elements. Inferring the ejected mass and a merger rate from GW170817
implies that such mergers are a dominant mode of r-process production in the
Universe. | Source: | arXiv, 1710.5463 | Services: | Forum | Review | PDF | Favorites |
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