[1] S. Candelaresi, D. Pontin, A. Yeates, P. Bushby, and G. Hornig. Estimating the rate of field line braiding in the solar corona by photospheric flows. ArXiv e-prints, 2018. [ bib | arXiv ]
[2] Petr M. Akhmet'ev, Simon Candelaresi, and Alexandr Yu Smirnov. Calculations for the practical applications of quadratic helicity in mhd. Physics of Plasmas, 24(10):102128, 2017. [ bib | DOI | arXiv | http ]
[3] S. Candelaresi, D. I. Pontin, and G. Hornig. Quantifying the tangling of trajectories using the topological entropy. Chaos: An Interdisciplinary Journal of Nonlinear Science, 27(9):093102, 2017. [ bib | DOI | arXiv | http ]
[4] Christopher Berg Smiet, Simon Candelaresi, and Dirk Bouwmeester. Ideal relaxation of the hopf fibration. Physics of Plasmas, 24(7):072110, 2017. [ bib | DOI | arXiv | http ]
[5] S. Candelaresi, D. I. Pontin, and G. Hornig. Effects of field-line topology on energy propagation in the corona. The Astrophysical Journal, 832(2):150, 2016. [ bib ]
[6] D I Pontin, S Candelaresi, A J B Russell, and G Hornig. Braided magnetic fields: equilibria, relaxation and heating. Plasma Physics and Controlled Fusion, 58(5):054008, 2016. [ bib | http ]
[7] C. B. Smiet, S. Candelaresi, A. Thompson, J. Swearngin, J. W. Dalhuisen, and D. Bouwmeester. Self-organizing knotted magnetic structures in plasma. Phys. Rev. Lett., 115:095001, Aug 2015. [ bib | DOI | http ]
[8] S. Candelaresi, D. I. Pontin, and G. Hornig. Magnetic Field Relaxation and Current Sheets in an Ideal Plasma. , 808:134, August 2015. [ bib | DOI | arXiv ]
Keywords: Sun: corona, Sun: magnetic fields
[9] S. Candelaresi, D. Pontin, and G. Hornig. Mimetic methods for lagrangian relaxation of magnetic fields. SIAM Journal on Scientific Computing, 36(6):B952--B968, 2014. [ bib | DOI | arXiv | http ]
[10] S. Candelaresi, A. Hillier, H. Maehara, A. Brandenburg, and K. Shibata. Superflare occurrence and energies on g-, k-, and m-type dwarfs. The Astrophysical Journal, 792(1):67, September 2014. [ bib | http ]
[11] Simon Candelaresi and Axel Brandenburg. Kinetic helicity needed to drive large-scale dynamos. Phys. Rev. E, 87:043104, Apr 2013. [ bib | DOI | http ]
[12] Simon Candelaresi and Axel Brandenburg. Decay of helical and nonhelical magnetic knots. Phys. Rev. E, 84:016406, Jul 2011. [ bib | DOI | arXiv ]
Keywords: Astrophysics - Solar and Stellar Astrophysics, Physics - Plasma Physics
[13] Simon Candelaresi, Alexander Hubbard, Axel Brandenburg, and Dhrubaditya Mitra. Magnetic helicity transport in the advective gauge family. Physics of Plasmas, 18(1):012903, 2011. [ bib | DOI | arXiv | http ]
Keywords: numerical analysis; plasma density; plasma instability; plasma magnetohydrodynamics; plasma simulation; plasma transport processes; plasma turbulence
[14] Fabio Del Sordo, Simon Candelaresi, and Axel Brandenburg. Magnetic-field decay of three interlocked flux rings with zero linking number. Phys. Rev. E, 81(3):036401, Mar 2010. [ bib | DOI | arXiv ]
[15] Dhrubaditya Mitra, Simon Candelaresi, Piyali Chatterjee, Reza Tavakol, and Axel Brandenburg. Equatorial magnetic helicity flux in simulations with different gauges. Astronomical Notes, 331:130--135, january 2010. [ bib | DOI | arXiv ]
[16] Axel Brandenburg, Simon Candelaresi, and Piyali Chatterjee. Small-scale magnetic helicity losses from a mean-field dynamo. Mon Not Roy Astron Soc, 398:1414--1422, september 2009. [ bib | DOI | arXiv ]
[17] S. Candelaresi, D. I. Pontin, and G. Hornig. Magnetic field line braiding in the solar atmosphere. In S. Vargas Domínguez, A. G. Kosovichev, P. Antolin, and L. Harra, editors, Fine Structure and Dynamics of the Solar Atmosphere, volume 327 of IAU Symposium, pages 77--81, October 2017. [ bib | DOI ]
[18] S. Candelaresi and R. Hilfer. Excess wings in broadband dielectric spectroscopy. In American Institute of Physics Conference Series, volume 1637 of American Institute of Physics Conference Series, pages 1283--1290, December 2014. [ bib | DOI ]
[19] S. Candelaresi. Topological constraints in magnetic field relaxation. volume 544, page 012006, October 2014. [ bib | DOI | arXiv ]
[20] Simon Candelaresi and Axel Brandenburg. Topological constraints on magnetic field relaxation. volume 294 of IAU Symposium, pages 353--357, 8 2012. [ bib | DOI | arXiv | http ]
[21] Simon Candelaresi and Axel Brandenburg. Magnetic helicity fluxes and their effect on stellar dynamos. In C. H. Mandrini and D. F. Webb, editors, Comparative Magnetic Minima: Characterizing quiet times in the Sun and Stars, volume 286 of IAU Symposium, pages 49--53. Cambridge University Press, July 2012. [ bib | DOI ]
Keywords: Sun: magnetic fields, dynamo, magnetic helicity,
[22] Simon Candelaresi and Axel Brandenburg. Magnetic helicity fluxes in αΩ dynamos. In Advances in Plasma Astrophysics, volume 274 of IAU Symposium, pages 464--466. Cambridge University Press, 2011. [ bib | DOI | arXiv ]
Keywords: Sun: magnetic fields
[23] Simon Candelaresi, Fabio Del Sordo, and Axel Brandenburg. Decay of trefoil and other magnetic knots. In Advances in Plasma Astrophysics, volume 274 of IAU Symposium, pages 461--463. Cambridge University Press, 2011. [ bib | DOI | arXiv ]
Keywords: Sun: magnetic fields
[24] S. Candelaresi, F. D. Sordo, and A. Brandenburg. Influence of Magnetic Helicity in MHD. In Astrophysical Dynamics: From Stars to Galaxies, volume 271 of IAU Symposium, pages 369--370, August 2011. [ bib | DOI | arXiv ]
Keywords: Sun: magnetic fields

This file was generated by bibtex2html 1.98.