Imaging and Spectral Fitting of Bright Gamma-ray Sources with the COSI Balloon Payload

TL;DR

This paper details the analysis of gamma-ray sources observed by the COSI balloon payload, including imaging, spectral fitting, and comparison with other instruments, demonstrating the instrument's capabilities in high-energy astrophysics.

Contribution

It introduces the data analysis methods for COSI-Balloon observations, including background subtraction, imaging, and spectral fitting, and provides the first detailed spectral measurements of key gamma-ray sources.

Findings

Crab Nebula flux measured at (4.5 ± 1.6) × 10^{-3} ph/cm^2/s in 325-480 keV

Cygnus X-1 spectrum fitted with a cutoff power law with cutoff at 138.3 keV

Centaurus A spectrum modeled with a power law with photon index 1.73

Abstract

The Compton Spectrometer and Imager balloon payload (COSI-Balloon) is a wide-field-of-view Compton ${\gamma}$-ray telescope that operates in the 0.2 - 5 MeV bandpass. COSI-Balloon had a successful 46-day flight in 2016 during which the instrument observed the Crab Nebula, Cygnus X-1, and Centaurus A. Using the data collected by the COSI-Balloon instrument during this flight, we present the source flux extraction of signals from the variable balloon background environment and produce images of these background-dominated sources by performing Richardson-Lucy deconvolutions. We also present the spectra measured by the COSI-Balloon instrument, compare and combine them with measurements from other instruments, and fit the data. The Crab Nebula was observed by COSI-Balloon and we obtain a measured flux in the energy band 325 - 480 keV of (4.5 ${\pm}$ 1.6) ${\times}$ 10$^{-3}$ ph cm$^{-2}$ s$^{-1}$. The model that best fits the COSI-Balloon data combined with measurements from NuSTAR and Swift-BAT is a broken power law with a measured photon index ${\Gamma}$ = 2.20 ${\pm}$ 0.02 above the 43 keV break. Cygnus X-1 was also observed during this flight, and we obtain a measured flux of (1.4 ${\pm}$ 0.2) ${\times}$ 10$^{-3}$ ph cm$^{-2}$ s$^{-1}$ in the same energy band and a best-fit result (including data from NuSTAR, Swift-BAT, and INTEGRAL/ IBIS) was to a cutoff power law with a high-energy cutoff energy of 138.3 ${\pm}$ 1.0 keV and a photon index of ${\Gamma}$ = 1.358 ${\pm}$ 0.002. Lastly, we present the measured spectrum of Centaurus A and our best model fit to a power law with a photon index of ${\Gamma}$ = 1.73 ${\pm}$ 0.01.