Добрый день, Коллеги. Важное сообщение, просьба принять участие. Музей Ферсмана ищет помощь для реставрационных работ в помещении. Подробности по ссылке

Readings from the treatise on geochemistry / Отрывки из трактата по геохимии

Редактор(ы):Turekian K.K., Holland H.D.
Издание:Elsevier, 2010 г., 680 стр., ISBN: 978-0-12-381391-6
Язык(и)Английский
Readings from the treatise on geochemistry / Отрывки из трактата по геохимии

Nucleosynthesis is the study of the nuclear processes responsible for the formation of the elements which constitute the baryonic matter of the Universe. The elements of which the Universe is composed indeed have a quite complicated nucleosynthesis history, which extends from the first three minutes of the Big Bang through to the present. Contemporary nucleosynthesis theory associates the production of certain elements/isotopes or groups of elements with a number of specific astrophysical settings, the most significant of which are: (i) the cosmological Big Bang, (ii) stars, and (iii) supernovae.

Cosmological nucleosynthesis studies predict that the conditions characterizing the Big Bang are consistent with the synthesis only of the lightest elements: 1 H, 2 H, 3 He, 4 He, and 7 Li (Burles et al., 2001; Cyburt et al., 2002). These contributions define the primordial compositions both of galaxies and of the first stars formed therein. Within galaxies, stars and supernovae play the dominant role both in synthesizing the elements from carbon to uranium and in returning heavy-lement-enriched matter to the interstellar gas from which new stars are formed. The mass fraction of our solar system (formed 4.6 Gyr ago) in the form of heavy elements is 1.8%, and stars formed today in our galaxy can be a factor 2 or 3 more enriched (Edvardsson et al., 1993). It is the processes of nucleosynthesis operating in stars and supernovae that we will review in this chapter. We will confine our attention to three broad categories of stellar and supernova site with which specific nucleosynthesis products are understood to be identified: (i) intermediate mass stars, (ii) massive stars and associated type II supernovae, and (iii) type Ia supernovae. The first two of these sites are the straightforward consequence of the evolution of single stars, while type Ia supernovae are understood to result from binary stellar evolution. <...>

ТематикаГеохимия
МеткиГеохимия
Скачать
Внимание! Если Вы хотите поделиться с кем-то материалом c этой страницы, используйте вот эту ссылку:
https://www.geokniga.org/books/35301
Прямые ссылки на файлы работать не будут!
688.11