English

The high-speed X-ray camera on AXIS

Instrumentation and Methods for Astrophysics 2023-09-06 v1 High Energy Astrophysical Phenomena

Abstract

AXIS is a Probe-class mission concept that will provide high-throughput, high-spatial-resolution X-ray spectral imaging, enabling transformative studies of high-energy astrophysical phenomena. To take advantage of the advanced optics and avoid photon pile-up, the AXIS focal plane requires detectors with readout rates at least 20 times faster than previous soft X-ray imaging spectrometers flying aboard missions such as Chandra and Suzaku, while retaining the low noise, excellent spectral performance, and low power requirements of those instruments. We present the design of the AXIS high-speed X-ray camera, which baselines large-format MIT Lincoln Laboratory CCDs employing low-noise pJFET output amplifiers and a single-layer polysilicon gate structure that allows fast, low-power clocking. These detectors are combined with an integrated high-speed, low-noise ASIC readout chip from Stanford University that provides better performance than conventional discrete solutions at a fraction of their power consumption and footprint. Our complementary front-end electronics concept employs state of the art digital video waveform capture and advanced signal processing to deliver low noise at high speed. We review the current performance of this technology, highlighting recent improvements on prototype devices that achieve excellent noise characteristics at the required readout rate. We present measurements of the CCD spectral response across the AXIS energy band, augmenting lab measurements with detector simulations that help us understand sources of charge loss and evaluate the quality of the CCD backside passivation technique. We show that our technology is on a path that will meet our requirements and enable AXIS to achieve world-class science.

Keywords

Cite

@article{arxiv.2309.00717,
  title  = {The high-speed X-ray camera on AXIS},
  author = {Eric D. Miller and Marshall W. Bautz and Catherine E. Grant and Richard F. Foster and Beverly LaMarr and Andrew Malonis and Gregory Prigozhin and Benjamin Schneider and Christopher Leitz and Sven Herrmann and Steven W. Allen and Tanmoy Chattopadhyay and Peter Orel and R. Glenn Morris and Haley Stueber and Abraham D. Falcone and Andrew Ptak and Christopher Reynolds},
  journal= {arXiv preprint arXiv:2309.00717},
  year   = {2023}
}

Comments

17 pages, 11 figures, submitted to Proceedings of SPIE Optics + Photonics 2023

R2 v1 2026-06-28T12:10:46.534Z