Dr Francesco Miniati

Three-dimensional Magnetohydrodynamic Numerical Simulations of Cloud-Wind Interactions

The Astrophysical Journal American Astronomical Society 543:2 (2000) 775-786

Authors:

G Gregori, Francesco Miniati, Dongsu Ryu, TW Jones

Properties of Cosmic Shock Waves in Large‐Scale Structure Formation

The Astrophysical Journal American Astronomical Society 542:2 (2000) 608-621

Authors:

Francesco Miniati, Dongsu Ryu, Hyesung Kang, TW Jones, Renyue Cen, Jeremiah P Ostriker

Properties of Cosmic Shock Waves in Large-Scale Structure Formation

The Astrophysical Journal American Astronomical Society 542:2 (2000) 608-621

Authors:

Francesco Miniati, Dongsu Ryu, Hyesung Kang, TW Jones, Renyue Cen, Jeremiah P Ostriker

Acceleration of CR at large scale shocks and their cosmological role for structure formation in the universe

COSMIC EVOLUTION AND GALAXY FORMATION: STRUCTURE, INTERACTIONS, AND FEEDBACK 215 (2000) 27-30

Authors:

F Miniati, DS Ryu, TW Jones, HS Kang

Enhanced Cloud Disruption by Magnetic Field Interaction.

The Astrophysical journal 527:2 (1999) L113-L116

Authors:

G Gregori, F Miniati, D Ryu, TW Jones

Abstract:

We present results from the first three-dimensional numerical simulations of moderately supersonic cloud motion through a tenuous, magnetized medium. We show that the interaction of the cloud with a magnetic field perpendicular to its motion has a great dynamical impact on the development of instabilities at the cloud surface. Even for initially spherical clouds, magnetic field lines become trapped in surface deformations and undergo stretching. The consequent field amplification that occurs there and, in particular, its variation across the cloud face then dramatically enhance the growth rate of Rayleigh-Taylor unstable modes, hastening the cloud disruption.