The years 2012/2013 mark the 50th anniversary of the theoretical prediction that Brown Dwarfs, i.e. degenerate objects which are just not massive enough to sustain stable hydrogen fusion, exist. Some 20 years after their discovery, how Brown Dwarfs form is still one of the main open questions in the theory of star formation.
In this volume, the pioneers of Brown Dwarf research review the history of the theoretical prediction and the subsequent discovery of Brown Dwarfs. After an introduction, written by Viki Joergens, reviewing Shiv Kumar's theoretical prediction of the existence of brown dwarfs, Takenori Nakano reviews his and Hayashi's calculation of the Hydrogen Burning Minimum Mass. Both predictions happened in the early 1960s. Jill Tarter then writes on the introduction of the term 'Brown Dwarf', before Ben Oppenheimer, Rafael Rebolo and Gibor Basri describe their first discovery of Brown Dwarfs in the 1990s. Lastly, Michael Cushing and Isabelle Baraffe describe the development of the field to the current state of the art.
While the book is mainly aimed at the Brown Dwarf research community, the description of the pioneering period in a scientific field will attract general readers interested in astronomy as well.
Dr. Viki Joergens is research staff scientist at the Max Planck Institute for Astronomy in Heidelberg, Germany. She is also Margarete von Wrangell Fellow and EC Marie Curie Intra-European Fellow. Her research focuses on brown dwarfs and very low-mass stars. She was member of the SOC of several workshops and sessions on brown dwarfs and very low-mass stars.
The Theoretical Prediction of the Existence of Brown Dwarfs by Shiv S. Kumar.- Pre-Main Sequence Evolution and the Hydrogen Burning Minimum Mass.- Brown is Not a Color: Introduction of the Term 'Brown Dwarf'.- Teide 1 and the Discovery of Brown Dwarfs.- The Discovery of the First Lithium Brown Dwarf: PPl 15.- Companions of Stars: From Other Stars to Brown Dwarfs to Planets.- Ultracool Objects: L, T, and Y Dwarfs.- Latest News on the Physics of Brown Dwarfs.