<--- Back to Details
First PageDocument Content
Particle physics / Radiation / Black holes / Electronvolt / Ultra-high-energy cosmic ray / Radio galaxy / Active galactic nucleus / Cosmic ray / Accretion disc / Physics / Astroparticle physics / Quantum electrodynamics
Particle physics
Radiation
Black holes
Electronvolt
Ultra-high-energy cosmic ray
Radio galaxy
Active galactic nucleus
Cosmic ray
Accretion disc
Physics
Astroparticle physics
Quantum electrodynamics

Centaurus A as TeV -ray and possible UHE cosmic-ray source

Add to Reading List

Source URL: www.aanda.org

Download Document from Source Website

File Size: 123,06 KB

Share Document on Facebook

Similar Documents

Black holes / Star types / Galaxies / Dark matter / Exotic matter / Accretion disc / Supermassive black hole / Ultraluminous X-ray source / Polar jet / Astronomy / Physics / Matter

Accretion Physics inStellar-Mass Compact Objects

DocID: 1gs6X - View Document

Space plasmas / Astrophysics / Light sources / Space telescopes / International X-ray Observatory / Corona / Accretion disc / Solar flare / Plasma / Physics / Astronomy / Plasma physics

Cool star studies with IXO Marc Audard (University of Geneva) ESA IXO Conference, Munich 17­19 September 2008

DocID: 1fzWC - View Document

Astronomy / Black holes / Spaceflight / European Space Agency / International X-ray Observatory / Rossi X-ray Timing Explorer / Accretion disc / Polar jet / Active galactic nucleus / Space telescopes / X-ray telescopes / Spacecraft

Pushing IXO to the Extreme Phil Uttley University of Southampton Black hole power: key questions

DocID: 1fuEN - View Document

Astronomy / Exotic matter / Star types / Dark matter / Physical phenomena / Accretion disc / Star / Stellar rotation / Viscosity / Physics / Matter / Stellar astronomy

A&A 560, A56DOI: Astronomy & Astrophysics

DocID: 1aVUr - View Document

Dynamics / Taylor–Couette flow / Magnetorotational instability / Turbulence / Hydrodynamic stability / Accretion disc / Reynolds number / Reynolds stress / Couette flow / Fluid dynamics / Physics / Fluid mechanics

Vol 444 | 16 November 2006 | doi:nature05323 LETTERS Hydrodynamic turbulence cannot transport angular momentum effectively in astrophysical disks Hantao Ji1, Michael Burin1{, Ethan Schartman1 & Jeremy Goodman1

DocID: 1ajvf - View Document