Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download The Evolution of Massive Stars
Document related concepts
Corona Australis wikipedia , lookup
Nebular hypothesis wikipedia , lookup
Observational astronomy wikipedia , lookup
History of Solar System formation and evolution hypotheses wikipedia , lookup
Star of Bethlehem wikipedia , lookup
Gamma-ray burst wikipedia , lookup
Dyson sphere wikipedia , lookup
Formation and evolution of the Solar System wikipedia , lookup
International Ultraviolet Explorer wikipedia , lookup
Perseus (constellation) wikipedia , lookup
Theoretical astronomy wikipedia , lookup
Cygnus (constellation) wikipedia , lookup
Astronomical spectroscopy wikipedia , lookup
Cassiopeia (constellation) wikipedia , lookup
Aquarius (constellation) wikipedia , lookup
H II region wikipedia , lookup
Future of an expanding universe wikipedia , lookup
Corvus (constellation) wikipedia , lookup
Timeline of astronomy wikipedia , lookup
Stellar kinematics wikipedia , lookup
History of supernova observation wikipedia , lookup
Standard solar model wikipedia , lookup
Crab Nebula wikipedia , lookup
Transcript
The Evolution of Massive Stars The Fate of 10, 20, or 30 solar mass stars Eta Carinae: possibly a 100 solar mass star: what will it do next? The Evolution of massive stars picks up where low mass stellar evolution ends…the C,O core continues to contract In innermost core, successively hotter nuclear reactions generate heavier nuclei as “ashes” until Iron. This is the peak of the “curve of binding energy” Following iron synthesis, “core collapse” occurs Prediction of core collapse: generation of a Neutron Star Process of neutronization: e+p > n + nu A ball of neutrons the size of Iowa City with the mass of the Sun The Neutron Star This is the end product of a truly massive star Predicted Consequences of Massive Star Evolution • Huge explosion: 10**44 Joules = total energy radiated by the Sun in its lifetime • Pulse of neutrinos as core collapses • “Pollution” of the interstellar medium as explosion blows off the outer stellar core • Birth of the “neutron star” Prediction #1: Huge explosion = supernova Simulated appearance of the supernova of 1006 AD…between crescent moon and Venus in brightness for a few weeks The most recent visible supernova: SN1987A “burst” of neutrinos observed at beginning of supernova explosion “Feature” #3: “Pollution” of the Interstellar Medium Cassiopeia A: expanding cloud of “metal-rich” debris from a supernova in about 1680: today the brightest radio source in the sky Where is Cas A? An interstellar dark cloud in front of it prevented a spectacle at the time of the Royal Society Neutron Stars: do they exist? An object with the mass of the Sun crammed into a ball this big The end product of massive star evolution Neutron Stars: a brief history • Basic physics understood in the 1930s • At that time, no known counterparts • In the 1950s and 1960s, more and more strange objects found, but where were the neutrons stars, or did they even exist? • The case of the Crab Nebula (supernova of 1054 AD) The Crab Nebula (M1) It’s expand ing! http://antwrp.gsfc.nasa.gov/apod/ap011217.html For years, the key to the Crab Nebula was there is plain sight In 1968 the breakthrough came
