The electron calorimeter (ECAL) long duration balloon experiment

Accurate measurements of the cosmic ray electron energy spectrum in the energy region 50 GeV to greater than 1 TeV may reveal structure caused by the annihilation of exotic dark matter particles and/or individual cosmic ray sources. Here we describe a new long duration balloon (LDB) experiment, ECAL...

Full description

Bibliographic Details
Main Authors: Guzik, T. G., Adams, J. H., Bashindzhagyan, G., Binns, W. R., Chang, J., Cherry, M. L., Christl, M., Dowkontt, P., Ellison, B., Isbert, J. B., Israel, M. H., Korotkova, N., Panasyuk, M., Panov, A., Sokolskaya, N., Stewart, M., Watts, J., Wefel, J. P., Wu, J., Zatsepin, V.
Format: Text
Language:unknown
Published: LSU Scholarly Repository 2007
Subjects:
Antarc*
Antarctica
Online Access:https://repository.lsu.edu/physics_astronomy_pubs/5494
Description
Summary:Accurate measurements of the cosmic ray electron energy spectrum in the energy region 50 GeV to greater than 1 TeV may reveal structure caused by the annihilation of exotic dark matter particles and/or individual cosmic ray sources. Here we describe a new long duration balloon (LDB) experiment, ECAL, optimized to directly measure cosmic ray electrons up to several TeV. ECAL includes a double layer silicon matrix, a scintillating optical fiber track imager, a neutron detector and a fully active calorimeter to identify more than 90% of the incident electrons with an energy resolution of about 1.7% while misidentifying only 1 in 200,000 protons and 0.8% of secondary gamma rays as electrons. Two ECAL flights in Antarctica are planned for a total exposure of 50 days with the first flight anticipated for December 2009.

Similar Items