Ebook: Jets from Young Stars IV: From Models to Observations and Experiments
- Tags: Astronomy Observations and Techniques, Astrophysics and Astroparticles, Extraterrestrial Physics Space Sciences, Soft and Granular Matter Complex Fluids and Microfluidics
- Series: Lecture Notes in Physics 793
- Year: 2010
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
Astronomical jets are key astrophysical phenomena observed in gamma-ray bursts, active galactic nuclei or young stars. Research on them has largely occurred within the domains of astronomical observations, astrophysical modeling and numerical simulations, but the recent advent of high energy density facilities has added experimental control to jet studies.
Front-line research on jet launching and collimation requires a highly interdisciplinary approach and an elevated level of sophistication. Bridging the gaps between pure magnetohydrodynamics, thermo-chemical evolution, high angular resolution spectro-imaging and laboratory experiments is no small matter. This volume strives to bridge those very gaps. It offers a series of lectures which, taken as whole, act as a thorough reference for the foundations of this discipline. These lectures address the following:
· laboratory jets physics from laser and z-pinch plasma experiments,
· the magnetohydrodynamic theory of relativistic and non-relativistic stationary jets,
· heating mechanisms in magnetohydrodynamic jets, from the solar magnetic reconnection to the molecular shock heating perspectives,
· atomic and molecular microphysics of jet shocked material.
In addition to the lectures, the book offers, in closing, a presentation of a series of observational diagnostics, thus allowing for the recovery of basic physical quantities from jet emission lines.
Astronomical jets are key astrophysical phenomena observed in gamma-ray bursts, active galactic nuclei or young stars. Research on them has largely occurred within the domains of astronomical observations, astrophysical modeling and numerical simulations, but the recent advent of high energy density facilities has added experimental control to jet studies.
Front-line research on jet launching and collimation requires a highly interdisciplinary approach and an elevated level of sophistication. Bridging the gaps between pure magnetohydrodynamics, thermo-chemical evolution, high angular resolution spectro-imaging and laboratory experiments is no small matter. This volume strives to bridge those very gaps. It offers a series of lectures which, taken as whole, act as a thorough reference for the foundations of this discipline. These lectures address the following:
· laboratory jets physics from laser and z-pinch plasma experiments,
· the magnetohydrodynamic theory of relativistic and non-relativistic stationary jets,
· heating mechanisms in magnetohydrodynamic jets, from the solar magnetic reconnection to the molecular shock heating perspectives,
· atomic and molecular microphysics of jet shocked material.
In addition to the lectures, the book offers, in closing, a presentation of a series of observational diagnostics, thus allowing for the recovery of basic physical quantities from jet emission lines.
Astronomical jets are key astrophysical phenomena observed in gamma-ray bursts, active galactic nuclei or young stars. Research on them has largely occurred within the domains of astronomical observations, astrophysical modeling and numerical simulations, but the recent advent of high energy density facilities has added experimental control to jet studies.
Front-line research on jet launching and collimation requires a highly interdisciplinary approach and an elevated level of sophistication. Bridging the gaps between pure magnetohydrodynamics, thermo-chemical evolution, high angular resolution spectro-imaging and laboratory experiments is no small matter. This volume strives to bridge those very gaps. It offers a series of lectures which, taken as whole, act as a thorough reference for the foundations of this discipline. These lectures address the following:
· laboratory jets physics from laser and z-pinch plasma experiments,
· the magnetohydrodynamic theory of relativistic and non-relativistic stationary jets,
· heating mechanisms in magnetohydrodynamic jets, from the solar magnetic reconnection to the molecular shock heating perspectives,
· atomic and molecular microphysics of jet shocked material.
In addition to the lectures, the book offers, in closing, a presentation of a series of observational diagnostics, thus allowing for the recovery of basic physical quantities from jet emission lines.
Content:
Front Matter....Pages i-viii
Laboratory Astrophysics and Scaling....Pages 1-29
Laboratory Studies of Astrophysical Jets....Pages 31-50
Output from MHD Models....Pages 51-108
Coronal Heating....Pages 109-160
Flows in Molecular Media....Pages 161-194
The Ionisation and Excitation State of Stellar Outflows....Pages 195-212
Deriving Physical Diagnostics from Observations....Pages 213-249
Back Matter....Pages 1-2
Astronomical jets are key astrophysical phenomena observed in gamma-ray bursts, active galactic nuclei or young stars. Research on them has largely occurred within the domains of astronomical observations, astrophysical modeling and numerical simulations, but the recent advent of high energy density facilities has added experimental control to jet studies.
Front-line research on jet launching and collimation requires a highly interdisciplinary approach and an elevated level of sophistication. Bridging the gaps between pure magnetohydrodynamics, thermo-chemical evolution, high angular resolution spectro-imaging and laboratory experiments is no small matter. This volume strives to bridge those very gaps. It offers a series of lectures which, taken as whole, act as a thorough reference for the foundations of this discipline. These lectures address the following:
· laboratory jets physics from laser and z-pinch plasma experiments,
· the magnetohydrodynamic theory of relativistic and non-relativistic stationary jets,
· heating mechanisms in magnetohydrodynamic jets, from the solar magnetic reconnection to the molecular shock heating perspectives,
· atomic and molecular microphysics of jet shocked material.
In addition to the lectures, the book offers, in closing, a presentation of a series of observational diagnostics, thus allowing for the recovery of basic physical quantities from jet emission lines.
Content:
Front Matter....Pages i-viii
Laboratory Astrophysics and Scaling....Pages 1-29
Laboratory Studies of Astrophysical Jets....Pages 31-50
Output from MHD Models....Pages 51-108
Coronal Heating....Pages 109-160
Flows in Molecular Media....Pages 161-194
The Ionisation and Excitation State of Stellar Outflows....Pages 195-212
Deriving Physical Diagnostics from Observations....Pages 213-249
Back Matter....Pages 1-2
....