Journal
ASTROPHYSICAL JOURNAL
Volume 840, Issue 2, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.3847/1538-4357/aa6c57
Keywords
astrobiology; cosmic rays; stars: supernovae: general
Categories
Funding
- NASA Exobiology grant [NNX14AK22G]
- NASA [NNX14AK22G, 680129] Funding Source: Federal RePORTER
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Recent Fe-60 results have suggested that the estimated distances of supernovae in the last few million years should be reduced from similar to 100 to similar to 50 pc. Two events or series of events are suggested, one about 2.7 million years to 1.7 million years ago, and another about. 6.5-8.7 million years ago. We ask what effects such supernovae are expected to have on the terrestrial atmosphere and biota. Assuming that the Local Bubble was formed before the event being considered, and that the supernova and the Earth were both inside a weak, disordered magnetic field at that time, TeV-PeV cosmic rays (CRs) at Earth will increase by a factor of a few hundred. Tropospheric ionization will increase proportionately, and the overall muon radiation load on terrestrial organisms will increase by a factor of similar to 150. All return to pre-burst levels within 10 kyr. In the case of an ordered magnetic field, effects depend strongly on the field orientation. The upper bound in this case is with a largely coherent field aligned along the line of sight to the supernova, in which case, TeV-PeV CR flux increases are similar to 10(4); in the case of a transverse field they are below current levels. We suggest a substantial increase in the extended effects of supernovae on Earth and in the lethal distance estimate; though. more work is needed. This paper is an explicit follow-up to Thomas et al. We also. provide more detail on the computational procedures used in both works.
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