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Fermi Large Area Telescope observation of high-energy solar flares: constraining emission scenarios

Published online by Cambridge University Press:  09 September 2016

Nicola Omodei ,
Melissa Pesce-Rollins ,
Vahè Petrosian ,
Wei Liu ,
Fatima Rubio da Costa ,
Alice Allafort  and
for the Fermi-LAT collaboration
Nicola Omodei
Affiliation:
Stanford University and KIPAC email: nicola.omodei@stanford.edu
Melissa Pesce-Rollins
Affiliation:
Stanford University and KIPAC email: nicola.omodei@stanford.edu INFN Pisa, Italy
Vahè Petrosian
Affiliation:
Stanford University and KIPAC email: nicola.omodei@stanford.edu
Wei Liu
Affiliation:
Stanford University and KIPAC email: nicola.omodei@stanford.edu
Fatima Rubio da Costa
Affiliation:
Stanford University and KIPAC email: nicola.omodei@stanford.edu
Alice Allafort
Affiliation:
Stanford University and KIPAC email: nicola.omodei@stanford.edu
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Abstract

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The Fermi Large Area Telescope (LAT) is the most sensitive instrument ever deployed in space for observing gamma-ray emission >100 MeV. This has also been demonstrated by its detection of quiescent gamma-ray emission from pions produced by cosmic-ray protons interacting in the solar atmosphere, and from cosmic-ray electron interactions with solar optical photons. The Fermi-LAT has also detected high-energy gamma-ray emission associated with GOES M-class and X-class solar flares, each accompanied by a coronal mass ejection and a solar energetic particle event, increasing the number of detected solar flares by almost a factor of 10 with respect to previous space observations. During the impulsive phase, gamma rays with energies up to several hundreds of MeV have been recorded by the LAT. Emission up to GeV energies lasting several hours after the flare has also been detected by the LAT. Of particular interest are the recent detections of three solar flares whose position behind the limb was confirmed by the STEREO satellites. While gamma-ray emission up to tens of MeV resulting from proton interactions has been detected before from occulted solar flares, the significance of these particular events lies in the fact that these are the first detections of >100 MeV gamma-ray emission from footpoint-occulted flares. We will present the Fermi-LAT, RHESSI and STEREO observations of these flares and discuss the various emission scenarios for these sources.

Keywords

Sun: flaresSun: X-raysgamma rays
Type
Contributed Papers
Information
Proceedings of the International Astronomical Union , Volume 11 , Symposium S320: Solar and Stellar Flares and their Effects on Planets , August 2015 , pp. 51 - 56
Copyright
Copyright © International Astronomical Union 2016 

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