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Chondrules: Records of Protoplanetary Disk Processes

Hardback

Main Details

Title Chondrules: Records of Protoplanetary Disk Processes
Authors and Contributors      Edited by Sara S. Russell
Edited by Harold C. Connolly Jr.
Edited by Alexander N. Krot
SeriesCambridge Planetary Science
Physical Properties
Format:Hardback
Pages:450
Dimensions(mm): Height 252,Width 178
Category/GenreAstronomy, space and time
Solar system
ISBN/Barcode 9781108418010
ClassificationsDewey:549.112
Audience
Professional & Vocational
Illustrations Worked examples or Exercises; 16 Plates, color; 57 Halftones, black and white; 63 Line drawings, black and white

Publishing Details

Publisher Cambridge University Press
Imprint Cambridge University Press
Publication Date 19 July 2018
Publication Country United Kingdom

Description

Chondrules are spherical silicate grains which formed from protoplanetary disk material, and as such provide an important record of the conditions of the Solar System in pre-planetary times. Chondrules are a major constituent in chondritic meteorites, however despite being recognised for over 200 years, their origins remain enigmatic. This comprehensive review describes state-of-the-art research into chondrules, bringing together leading cosmochemists and astrophysicists to review the properties of chondrules and their possible formation mechanisms based on careful observations of their chemistry, mineralogy, petrology and isotopic composition. Current and upcoming space missions returning material from chondritic asteroids and cometary bodies has invigorated research in this field, leading to new models and observations, and providing new insight into the conditions and timescales of the solar protoplanetary disk. Presenting the most recent advances, this book is an invaluable reference for researchers and graduate students interested in meteorites, asteroids, planetary accretion and solar system dynamics.

Author Biography

Sara S. Russell is Head of Planetary Materials at the Natural History Museum, London and Visiting Professor at the Open University. She is a fellow of the Meteoritical Society and has been honoured with the eponymous asteroid 5497 Sararussell. She has been awarded the Antarctica Service Medal of the United States of America and the Bigsby Medal of the Geological Society. Her research interests include the formation of the solar system and the evolution of the moon. Harold C. Connolly, Jr, is founding Chair and Professor in the Department of Geology, School of Earth and Environment, Rowan University, New Jersey. He is also a Research Associate at the American Museum of Natural History and was a special Visiting Professor at Hokkaido University in Sapporo, Japan. He has been awarded the Antarctica Service Medal of the United States of America, and in 2006 Asteroid 6761 Haroldconnolly 1981 EV19 was named in his honour. He is a co-investigator and Mission Sample Scientist for NASA's New Frontiers 3 asteroid sample return mission OSIRIS-REX, and co-investigator for JAXA's asteroid sample return mission, Hayabusa2. He is a fellow of the Meteoritical Society. His career has been devoted to understanding the formation and evolution of primitive planetary materials, chondritic meteorites, to chondrule formation, the formation and dynamical evolution of asteroids, and the origin of Earth-like planets. Alexander N. Krot is a researcher at the University of Hawai'i, Manoa from which he received the Regents' Medal for Excellence in Research in 2004. He has also received a Humboldt Research Award, and an Antarctica Service Medal of the United States of America. He has been recognised by having both an asteroid (6169 Sashakrot Ex4) and a mineral (krotite) named in his honour. He is a fellow of the Meteoritical Society, from which he has been recently awarded the Leonard Medal. His research interests include astrophysical and cosmochemical problems related to the formation and early history of the solar system; chondritic meteorites and refractory inclusions; and isotope chronology.