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TRAMA
The review papers in this volume provide an in-depth examination of complex astrophysical phenomena of star formation via multi-wavelength observations and modeling. Among the fundamental issues discussed in the book are: The role of gravity and magnetized turbulence in the formation and evolution of molecular cloudsThe stellar feedback (supernovae, HII regions, winds, cosmic rays) in regulating star formation The origin of the stellar initial mass function and its universality across various environments Jets, magnetic fields and high energy particles in stellar clustersThe origin of the first stars and black holesThe goal of these papers is to review the major processes governing star formation and to investigate how they are interlinked. In doing so, they provide an in-depth look at the tremendous theoretical and observational progress that has been made in the recent past and also outline future perspectives.Previously published in Space Science Reviews in the Topical Collection "Star Formation”SOMMARIO
Editorial.- Physical processes in Star Formation.- The molecular cloud lifecycle.- From diffuse gas to dense molecular cloud cores.- The origin of the stellar mass distribution and multiplicity.- Zooming in on Individual Star Formation: Low- and High-mass Stars.- Star clusters near and far; tracing star formation across cosmic time.- The Physics of Star Cluster Formation and Evolution.- Formation and Evolution of Disks around Young Stellar Objects.- Formation of the first stars and black holes.- Impact of low-energy cosmic rays on star formation.- High-energy particles and radiation in star-forming regions.AUTORE
Andrei Bykov is head of High Energy Astrophysics laboratory in the Ioffe Institute, corresponding member of the Russian Academy of Sciences. His principal research interests are theory and observations of processes in astrophysical objects with extreme energy release - supernovae, gamma-ray bursts and clusters of galaxies. He is author and coauthor of over 250 scientific publications, a book on Turbulence, Current Sheets and Shocks in Cosmic Plasmas and editor of seven books on high energy astrophysics.Corinne Charbonnel is professor of Astrophysics at the University of Geneva (Switzerland) and Senior Researcher at CNRS (France). She was the President of the French Society of Astronomy and Astrophysics (SF2A) and of Division G (Stars and Stellar Physics) of the International Astronomical Union (IAU). She has pioneered studies of the impact of magnetohydrodynamical mechanisms on the transport of angular momentum and of chemicals in stellar interiors. She studies the broad consequences of these processes on stellar evolution and nucleosynthesis, planet habitability, stellar population properties across cosmic time, and the chemical and dynamical evolution of star clusters and galaxies.Patrick Hennebelle is an expert of the star formation process and the dynamics of the interstellar medium. He performs heavy numerical simulations that he confronts on one hand to analytical models and on the other hand to observations. He has particularly been working on the formation of molecular clouds, the collapse of dense cores, the formation of planet-forming discs and the origin of the stellar initial mass function. Alexandre Marcowith is staff researcher in the high-energy astrophysics department at Montpellier university. His research is centred on the physics and Astrophysics of Cosmic Rays focusing on acceleration and transport processes in the inter-stellar medium. He is member of the High Energy Stereoscopic System (HESS) and Cerenkov Telescope Array (CTA) collaboration. Georges Meynet is professor at the Department of Astronomy of the Geneva University. His research is in stellar physics, stellar evolution, nucleosynthesis, with applications to the evolution of stellar populations in galaxies, the nature of the core collapse supernova progenitors and the properties of the first stellar generations in the Universe.Maurizio Falanga received his university degree for Theoretical Physics and Astronomy at the University of Basel, Switzerland and his PhD degree in astrophysics from the University of Rome "La Sapienza”, Italy. He received the venia docendi in physics from the University of Basel in 2013. His scientific background is in high-energy astrophysics (hot universe and compact objects). Since 2009 he is the Science Program Manager at the International Space Science Institute (ISSI) in Bern, Switzerland. Between 2013 and 2019 he has been appointed as the first Executive Director of the International Space Sciences Institute in Beijing, China. He is author and co-author of about 200 published papers and editors of several books in his research fields.Rudolf von Steiger holds a diploma (MS) in theoretical physics (1984), a doctorate (PhD) in experimental physics (1988), and a habilitation in extraterrestrial physics (1995) from the University of Bern. He was a co-investigator of the Solar Wind Ion Composition Experiment (SWICS) on Ulysses and an associated scientist of the AMPTE and ACE missions. His relevant experience includes theoretical modelling of solar chromospheric processes, specifically of the FIP fractionation effect, as well as the analysis and interpretation of solar wind observations both in the Earth's magnetosheath and in interplanetary space. In 1995 he joined the newly created International Space Science Institute (ISSI) in Bern as a senior scientist. Currently he is working as a director at the ISSI and also holds an associate professorship at the University of Bern, both since 1999. He has received an early career award from the Swiss National Science Foundation and holds several achievement awards from both NASA and ESA. He currently serves as an editor for Space Science Reviews, Frontiers in Space Physics, and Living Reviews in Solar Physics.ALTRE INFORMAZIONI
- Condizione: Nuovo
- ISBN: 9789402420647
- Collana: Space Sciences Series of ISSI
- Dimensioni: 235 x 155 mm
- Formato: Brossura
- Illustration Notes: VI, 553 p. 95 illus., 84 illus. in color.
- Pagine Arabe: 553
- Pagine Romane: vi