Observations of an extreme storm in interplanetary space caused by successive coronal mass ejections

Authors

Ying D. Liu, Chinese Academy of Sciences
Janet G. Luhmann, University of California
Primoz Kajdic, Université de Toulouse
Emilia K. J. Kilpua, University of Helsinki
Noe Lugaz, University of New HampshireFollow
Nariaki V. Nitta, Lockheed-Martin Solar and Astrophysics Laboratory
Christian Mostl, Austrian Academy of Sciences
Benoit Lavraud, Universite de Toulouse
Stuart D. Bale, University of California
Charlie J. Farrugia, University of New HampshireFollow
Antoinette B. Galvin, University of New HampshireFollow

Abstract

Space weather refers to dynamic conditions on the Sun and in the space environment of the Earth, which are often driven by solar eruptions and their subsequent interplanetary disturbances. It has been unclear how an extreme space weather storm forms and how severe it can be. Here we report and investigate an extreme event with multi-point remote-sensing and in situ observations. The formation of the extreme storm showed striking novel features. We suggest that the in-transit interaction between two closely launched coronal mass ejections resulted in the extreme enhancement of the ejecta magnetic field observed near 1 AU at STEREO A. The fast transit to STEREO A (in only 18.6 h), or the unusually weak deceleration of the event, was caused by the preconditioning of the upstream solar wind by an earlier solar eruption. These results provide a new view crucial to solar physics and space weather as to how an extreme space weather event can arise from a combination of solar eruptions.

Publication Date

3-18-2014

Journal Title

Nature Communications

Publisher

Springer

Digital Object Identifier (DOI)

https://dx.doi.org/10.1038/ncomms4481

Document Type

Article

Recommended Citation

Liu, Y., Luhmann, J., Kajdič, P. et al. Observations of an extreme storm in interplanetary space caused by successive coronal mass ejections. Nat Commun 5, 3481 (2014). https://doi.org/10.1038/ncomms4481