Reconstructing the Cosmic Evolution of the Chemical Elements

Author(s)

Frebel, Anna L.

Abstract

The chemical elements are created in nuclear fusion processes in the hot and dense cores of stars. The energy generated through nucleosynthesis allows stars to shine for billions of years. When these stars explode as massive supernovae, the newly made elements are expelled, chemically enriching the surrounding regions. Subsequent generations of stars are formed from gas that is slightly more element-enriched than that from which previous stars formed. This chemical evolution can be traced back to its beginning soon after the Big Bang by studying the oldest and most metal-poor stars still observable in the Milky Way today. Through chemical analysis, they provide the only available tool for gaining information about the nature of the short-lived first stars and their supernova explosions more than thirteen billion years ago. These events set in motion the transformation of the pristine universe into a rich cosmos of chemically diverse planets, stars, and galaxies.

Date issued

2014-09

URI

http://hdl.handle.net/1721.1/92521

Department

Massachusetts Institute of Technology. Department of Physics

Journal

Daedalus

Publisher

MIT Press

Citation

Frebel, Anna. “Reconstructing the Cosmic Evolution of the Chemical Elements.” Daedalus 143, no. 4 (October 2014): 71–80.

Version: Final published version

ISSN

0011-5266

1548-6192