Simulation of the expected performance for the proposed gamma-ray detector HiSCORE

TL;DR

This paper presents simulation results for HiSCORE, a large-area gamma-ray detector designed to observe energies above 30 TeV, demonstrating its sensitivity and exploring configurations to lower the energy threshold.

Contribution

The study introduces a detailed simulation framework for HiSCORE and evaluates various design options to optimize its energy threshold and sensitivity for gamma-ray astronomy.

Findings

Threshold of 44 TeV at standard configuration

Lowered to 34 TeV with smaller station spacing

Further reduced to 24 TeV at higher altitude

Abstract

The HiSCORE project aims at opening up a new energy window in gamma-ray astronomy: The energy range above 30 TeV and up to several PeV. For this, a new detector system is being designed. It consists of a large array of non-imaging Cherenkov detectors with a light sensitive area of 0.5 square metres each. The total effective area of the detector will be 100 square kilometres. A large inter-station distance of 150 metres and a simple and inexpensive station design will make the instrumentation of such a large area feasible. A detailed detector simulation and event reconstruction system has been developed and used in conjunction with the CORSIKA air-shower simulation to estimate the sensitivity of the detector to gamma-ray point sources. The threshold for gamma-rays is 44 TeV (50% trigger efficiency) in the standard configuration, and the minimal detectable flux from a point source is below 10^(-13) erg / (s cm^2) above 100 TeV. Several options to lower the energy threshold of the detector have been examined. The threshold is decreased to 34 TeV by a smaller station spacing of 100 metres, and is further decreased to 24 TeV if the detector is set up at an altitude of 2000 metres above sea level. At a spacing of 150 metres, however, a higher altitude has no positive effect on the energy threshold. The threshold can also be reduced if the detector stations consist of small, independent 2 x 2 sub-arrays. In this case, the station spacing is not significant for the threshold, but again a higher altitude decreases the threshold further.