About 4.6 billion years ago, some event disturbed a cloud of gas and dust, triggering the gravitational collapse that led to the formation of the solar system. A core-collapse supernova, whose shock wave is capable of compressing such a cloud, is an obvious candidate for the initiating event. This hypothesis can be tested because supernovae also produce telltale patterns of short-lived radionuclides, which would be preserved today as isotopic anomalies. Previous studies of the forensic evidence have been inconclusive, finding a pattern of isotopes differing from that produced in conventional supernova models. Here we argue that these difficulties either do not arise or are mitigated if the initiating supernova was a special type, low in mas...
There is now solid experimental evidence of at least one supernova explosion within 100 pc of Earth ...
We investigate the enrichment of the pre-solar cloud core with short-lived radionuclides, especially...
Evidence for the presence of short-lived radioactive isotopes when the Solar System formed is preser...
About 4.6 billion years ago, some event disturbed a cloud of gas and dust, triggering the gravitatio...
One of the most amazing discoveries in space science is the unambiguous evidence from meteorites tha...
Meteorites contain clear evidence that isotopes with short half lives (as short as 100,000 years) we...
International audienceThe presence of short-lived radionuclides (t 1/2 < 10 Myr) in the early solar ...
Nearby supernova explosions may cause geological isotope anomalies via the direct deposition of debr...
[[abstract]]The presence of two new extinct nuclides 26Al and 107Pd with half-lives ∼106 years in th...
The evidence for the triggering of star formation by shocks from expanding supernova shells is examd...
Short-lived radioactive isotopes (SLRs) with half-lives between 0.1 and 100 Myr can be used to probe...
Ever since their first discovery in 1960, the origin of the relatively short-lived radionuclides, no...
Metal-poor stars were formed during the early epochs when only massive stars had time to evolve and ...
The first results from the STARDUST mission revealed that refractory phases formed at a close distan...
There is now solid experimental evidence of at least one supernova explosion within 100 pc of Earth ...
We investigate the enrichment of the pre-solar cloud core with short-lived radionuclides, especially...
Evidence for the presence of short-lived radioactive isotopes when the Solar System formed is preser...
About 4.6 billion years ago, some event disturbed a cloud of gas and dust, triggering the gravitatio...
One of the most amazing discoveries in space science is the unambiguous evidence from meteorites tha...
Meteorites contain clear evidence that isotopes with short half lives (as short as 100,000 years) we...
International audienceThe presence of short-lived radionuclides (t 1/2 < 10 Myr) in the early solar ...
Nearby supernova explosions may cause geological isotope anomalies via the direct deposition of debr...
[[abstract]]The presence of two new extinct nuclides 26Al and 107Pd with half-lives ∼106 years in th...
The evidence for the triggering of star formation by shocks from expanding supernova shells is examd...
Short-lived radioactive isotopes (SLRs) with half-lives between 0.1 and 100 Myr can be used to probe...
Ever since their first discovery in 1960, the origin of the relatively short-lived radionuclides, no...
Metal-poor stars were formed during the early epochs when only massive stars had time to evolve and ...
The first results from the STARDUST mission revealed that refractory phases formed at a close distan...
There is now solid experimental evidence of at least one supernova explosion within 100 pc of Earth ...
We investigate the enrichment of the pre-solar cloud core with short-lived radionuclides, especially...
Evidence for the presence of short-lived radioactive isotopes when the Solar System formed is preser...
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