Testing the Limits of Particle Acceleration in Cygnus OB2 with HAWC

Star forming regions (SFRs) have been postulated as possible sources of cosmic rays (CRs) in our galaxy. One example of a gamma-ray source associated with an SFR is the Fermi-LAT cocoon, an extended region of gamma-ray emission in the Cygnus X region and attributed to a possible superbubble with fre...

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Bibliographic Details
Published inarXiv.org
Main Authors Hona, Binita, Fleischhack, Henrike, Huentemeyer, Petra, the HAWC Collaboration
Format Paper
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 23.08.2019
Subjects
Cosmic rays
Emission analysis
Gamma ray sources
Gamma rays
High altitude
Milky Way Galaxy
O stars
Particle acceleration
Spectral energy distribution
Star formation
Stellar winds
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Summary:Star forming regions (SFRs) have been postulated as possible sources of cosmic rays (CRs) in our galaxy. One example of a gamma-ray source associated with an SFR is the Fermi-LAT cocoon, an extended region of gamma-ray emission in the Cygnus X region and attributed to a possible superbubble with freshly accelerated CRs. Because the emission region is surrounded by ionization fronts, it has been named the "Cygnus cocoon". CRs in the cocoon could have originated in the OB2 association and been accelerated at the interaction sites of stellar winds of massive O type stars. So far, there is no clear association at TeV energies. Spectral and morphological studies of TeV gamma-ray emission detected by the High Altitude Water Cherenkov (HAWC) observatory at the 2HWC J2031+415 region reveal that the spectral energy distribution of the cocoon extends from GeV to at least tens of TeV. Using HAWC data, we are able to study the acceleration of particles to highest energies in the Cygnus OB2 SFR.
ISSN:2331-8422