I
I. R. Losada
Researcher at Stockholm University
Publications - 23
Citations - 530
I. R. Losada is an academic researcher from Stockholm University. The author has contributed to research in topics: Magnetic pressure & Magnetic field. The author has an hindex of 14, co-authored 23 publications receiving 445 citations. Previous affiliations of I. R. Losada include University of La Laguna & IAC.
Papers
More filters
Journal ArticleDOI
The Pencil Code, a modular MPI code for partial differential equations and particles: multipurpose and multiuser-maintained
Axel Brandenburg,Anders Johansen,Philippe-A. Bourdin,Wolfgang Dobler,Wladimir Lyra,Matthias Rheinhardt,Sven Bingert,Nils Erland L. Haugen,Antony J. Mee,Frederick A. Gent,Natalia Babkovskaia,Chao-Chin Yang,T. Heinemann,Boris Dintrans,Dhrubaditya Mitra,Simon Candelaresi,Jörn Warnecke,Petri J. Käpylä,Andreas Schreiber,Piyali Chatterjee,Maarit J. Käpylä,Xiang-Yu Li,Jonas Krüger,Jørgen R. Aarnes,Graeme R. Sarson,Jeffrey S. Oishi,Jennifer Schober,Raphaël Plasson,Christer Sandin,Ewa Karchniwy,Luiz Felippe S. Rodrigues,Alexander Hubbard,Gustavo Guerrero,A. P. Snodin,I. R. Losada,Johannes Pekkilä,Chengeng Qian +36 more
TL;DR: The Pencil Code is a highly modular physics-oriented simulation code that can be adapted to a wide range of applications, primarily designed to solve partial differential equations of compressible hydrodynamics but can also evolve Lagrangian particles, their coagulation and condensation, as well as their interaction with the fluid.
Journal ArticleDOI
Bipolar magnetic structures driven by stratified turbulence with a coronal envelope
Jörn Warnecke,Jörn Warnecke,I. R. Losada,I. R. Losada,Axel Brandenburg,Axel Brandenburg,Nathan Kleeorin,Nathan Kleeorin,Nathan Kleeorin,Igor Rogachevskii,Igor Rogachevskii,Igor Rogachevskii +11 more
TL;DR: In this paper, the spontaneous formation of bipolar magnetic structures in direct numerical simulations of stratified forced turbulence with an outer coronal envelope was reported, where the turbulence is forced with transverse random waves only in the lower (turbulent) part of the domain.
Journal ArticleDOI
Bipolar magnetic structures driven by stratified turbulence with a coronal envelope
Jörn Warnecke,Jörn Warnecke,I. R. Losada,I. R. Losada,Axel Brandenburg,Axel Brandenburg,Nathan Kleeorin,Nathan Kleeorin,Nathan Kleeorin,Igor Rogachevskii,Igor Rogachevskii,Igor Rogachevskii +11 more
TL;DR: In this paper, the spontaneous formation of bipolar magnetic structures in direct numerical simulations of stratified forced turbulence with an outer coronal envelope was reported, where the turbulence is forced with transverse random waves only in the lower (turbulent) part of the domain.
Journal ArticleDOI
The Pencil Code, a modular MPI code for partial differential equations and particles: multipurpose and multiuser-maintained
Axel Brandenburg,Anders Johansen,Philippe-A. Bourdin,Wolfgang Dobler,Wladimir Lyra,Matthias Rheinhardt,Sven Bingert,Nils Erland L. Haugen,Antony J. Mee,Frederick A. Gent,Natalia Babkovskaia,Chao-Chin Yang,T. Heinemann,B. Dintrans,Dhrubaditya Mitra,Simon Candelaresi,Jörn Warnecke,Petri J. Käpylä,A. Schreiber,Piyali Chatterjee,Maarit J. Käpylä,Xiang-Yu Li,Jonas Krüger,Jørgen R. Aarnes,Graeme R. Sarson,Jeffrey S. Oishi,Jennifer Schober,Raphaël Plasson,C. Sandin,Ewa Karchniwy,Luiz Felippe S. Rodrigues,A. Hubbard,Gustavo Guerrero,A. P. Snodin,I. R. Losada,Johannes Pekkilä,C. Qian +36 more
TL;DR: The Pencil Code as discussed by the authors is a highly modular physics-oriented simulation code that can be adapted to a wide range of applications, including meteorological cloud microphysics and engineering applications in combustion.
Journal ArticleDOI
Rotational effects on the negative magnetic pressure instability
I. R. Losada,I. R. Losada,Axel Brandenburg,Axel Brandenburg,Nathan Kleeorin,Nathan Kleeorin,Dhrubaditya Mitra,Igor Rogachevskii,Igor Rogachevskii +8 more
TL;DR: In this article, the effects of rotation on mean-field magnetohydrodynamics in both two and three dimensions have been investigated in a parameter regime in which the properties of the negative effective magnetic pressure instability have been found to agree with properties of direct numerical simulations.