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  • 7:50 PM, Monday, 18 Oct 2021


Course Postgraduate
Semester Electives
Subject Code ESA668
Subject Title Accretion Physics

Syllabus

Introduction: Accretion as a source of energy --- observational consequences. Accretion in binary system: Introduction --- Interacting binary system --- Roche lobe overflow --- Disk formation --- Viscous torque --- The α disk viscosity --- Low and high-mass X-ray binarie s. Accretion disk (thin accretion disk) Theory: Basic concepts --- Structure of thin disk --- The emitted spectrum of steady α -disk --- Time dependence and stability --- the the rmal disk instability model (dwarf novae) --- wind accretion --- Disk around young stars --- confrontation with observations. Accretion on to compact object: Boundary layers --- Accretion on to magnetized neutron star and white dwarf --- accreti on column --- accretion on to black hole. Accretion disk in AGN: AGN models --- Radio, millim eter and infrared emission --- optical, UV and X-ray emission --- broad and narrow line region --- Extended and compact radio sources --- The Blandford-Znajek model. Thick discs: The limiti ng luminosity --- accretion tori --- self- gravitating disks and their stability --- astrophys ical implication. Accretion flows: The governing equations --- A unified description of steady flow --- advection-dominated flows --- general transonic accretion solution in presence of heating and cooling

Text Books

Same as Reference

References

1. Accretion Power in Astrophysics by Juhan Frank, Andrew King, Derek Raine (Cambridge University Press)

2. Accretion Processes in Star Formation by Lee Har tmann (Cambridge Astrophysics)

3. Theory of Transonic Astrophysical Flow by Sandip K. Chakrabarti (World Scientific)