Book contents
10 - Exotic stars: supernovae, pulsars and black holes
Summary
Stars of the types considered in this chapter differ from those discussed so far, inasmuch as, for various reasons, they do not (or cannot) appear on the H–R diagram. As before, we shall rely on stellar evolution calculations to describe them. Whenever possible, we shall confront the results and predictions of the theory with observations, either directly or based on statistical considerations. We shall find that, as we approach the frontiers of modern astrophysics, theory and observation go more closely hand in hand.
What is a supernova?
We should start by making acquaintance with the astronomical concept of a supernova, as we did with main-sequence stars, red giants and white dwarfs in Chapter 1. Stars undergoing a tremendous explosion (sudden brightening), during which their luminosity becomes comparable to that of an entire galaxy (some 1011 stars!), are called supernovae. Historically, nova was the name used for an apparently new star; eventually it turned out to be a misnomer, novae being (faint) stars that brighten suddenly by many orders of magnitude. So are supernovae, but on a much larger scale. Not until the 1930s were supernovae recognized as a separate class of objects within novae in general. They were so called by Fritz Zwicky, after Edwin Hubble had estimated the distance to the Andromeda galaxy (with the aid of Cepheids) and had thus been able to appreciate the unequalled luminosity of the nova discovered in that galaxy in 1885, amounting to about one sixth of the luminosity of the galaxy itself.
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- An Introduction to the Theory of Stellar Structure and Evolution , pp. 189 - 207Publisher: Cambridge University PressPrint publication year: 2009