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arxiv: 2007.03828 · v2 · pith:YOKZFNPR · submitted 2020-07-08 · astro-ph.IM · astro-ph.HE· cs.LG· stat.ML

Deep Ensemble Analysis for Imaging X-ray Polarimetry

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classification astro-ph.IM astro-ph.HEcs.LGstat.ML
keywords x-raymethodanalysisdeepimagingabsorptiondetectorsenergies
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We present a method for enhancing the sensitivity of X-ray telescopic observations with imaging polarimeters, with a focus on the gas pixel detectors (GPDs) to be flown on the Imaging X-ray Polarimetry Explorer (IXPE). Our analysis determines photoelectron directions, X-ray absorption points and X-ray energies for 1-9 keV event tracks, with estimates for both the statistical and model (reconstruction) uncertainties. We use a weighted maximum likelihood combination of predictions from a deep ensemble of ResNet convolutional neural networks, trained on Monte Carlo event simulations. We define a figure of merit to compare the polarization bias-variance trade-off in track reconstruction algorithms. For power-law source spectra, our method improves on the current planned IXPE analysis (and previous deep learning approaches), providing ~45% increase in effective exposure times. For individual energies, our method produces 20-30% absolute improvements in modulation factor for simulated 100% polarized events, while keeping residual systematic modulation within 1 sigma of the finite sample minimum. Absorption point location and photon energy estimates are also significantly improved. We have validated our method with sample data from real GPD detectors.

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  1. Astrophysical X-Ray Polarization

    astro-ph.HE 2026-05 unverdicted novelty 1.0

    Reviews mechanisms generating polarized X-rays in high-energy astrophysics and the detectors for measuring polarization fraction and angle.