NBIA Seminar: Miguel Mostafa – Niels Bohr Institute - University of Copenhagen

Niels Bohr Institute > Calendar > Events 2018 > NBIA Seminar: Miguel M...

NBIA Seminar: Miguel Mostafa

(Penn State)

Recent results from the High Altitude Water Cherenkov Observatory

High-energy gamma-ray observations are an essential probe of cosmic-ray acceleration mechanisms because they are created by cosmic rays interacting near their origin. The characteristics of the gamma-ray flux variability and spectra constrain the acceleration mechanisms and the environment of the accelerators. The detection of the highest energy gamma rays and the shortest timescales of variability are the key scientific motivations for building a continuously operating gamma-ray experiment with a large effective area. The Milagro experiment was the first-generation of gamma-ray detectors based on the water-Cherenkov technique, and demonstrated that it is possible to monitor a large fraction of the TeV sky on a 24/7 basis. The second-generation water-Cherenkov experiment, the High Altitude Water Cherenkov (HAWC) observatory, consists of an array of 300 water-Cherenkov detectors covering an area of 22,000 m^2 at 4,100 m above sea level. The larger effective area, the higher altitude, and the optical isolation of the detectors led to a 15-fold increase in sensitivity relative to Milagro. The improved performance allows us to survey the TeV sky, to map the diffuse emission, to detect emission from extended regions, and to observe transient events such as gamma-ray bursts. In addition, we also have the potential for discovering electromagnetic counterparts to gravitational waves and astrophysical neutrinos. The full HAWC array has been taking data since March, 2015. I will present the most recent results using data from the first two years of operation of the HAWC observatory, and describe the current on-going analysis.