Bridging Scales in Black Hole Accretion and Feedback: Studying Supermassive Black Holes
#science #blackholes #magnetizedbonds #galacticnucleus #outerspace #researchingouterspace #supermassiveblackholes #gasflows
https://hackernoon.com/bridging-scales-in-black-hole-accretion-and-feedback-studying-supermassive-black-holes
#science #blackholes #magnetizedbonds #galacticnucleus #outerspace #researchingouterspace #supermassiveblackholes #gasflows
https://hackernoon.com/bridging-scales-in-black-hole-accretion-and-feedback-studying-supermassive-black-holes
Hackernoon
Bridging Scales in Black Hole Accretion and Feedback: Studying Supermassive Black Holes | HackerNoon
The details of how gas flows into the galactic nucleus from large cosmic distances and how the SMBH in turn imparts feedback into the galaxy remain unresolved.
The Numerical Methods We Used to Study Black Holes
#science #blackhole #blackholephysics #magnetizedbonds #outerspace #galacticnucleus #researchingouterspace #blackholecalculations
https://hackernoon.com/the-numerical-methods-we-used-to-study-black-holes
#science #blackhole #blackholephysics #magnetizedbonds #outerspace #galacticnucleus #researchingouterspace #blackholecalculations
https://hackernoon.com/the-numerical-methods-we-used-to-study-black-holes
Hackernoon
The Numerical Methods We Used to Study Black Holes | HackerNoon
Our numerical scheme utilizes the GRMHD code KHARMA[1], a performance-portable C++ implementation based on iharm3D; iharm3D is itself an extension of HARM.