X-ray induced secondary particle counting with thin NbTiN nanowire superconducting detector

Journal article (2021)

Authors

Artur Branny KTH Royal Institute of Technology
Pierre Didier Phelma, Grenoble
Julien Zichi KTH Royal Institute of Technology
I.Z. Esmaeil Zadeh ImPhys/Optics - AS
Stephan Steinhauer KTH Royal Institute of Technology
Val Zwiller KTH Royal Institute of Technology
Ulrich Vogt KTH Royal Institute of Technology
Research Group
ImPhys/Optics (AS) (TU Delft)
Copyright: © 2021 Artur Branny, Pierre Didier, Julien Zichi, I.Z. Esmaeil Zadeh, Stephan Steinhauer, Val Zwiller, Ulrich Vogt
DOI: https://doi.org/10.1109/TASC.2021.3066578
More Info
expand_more

Published Date

2021

Language

English

Faculty

Applied Sciences

Department

ImPhys/Imaging Physics

Research Group

ImPhys/Optics

Abstract

We characterized the performance of abiased superconducting nanowire to detect X-ray photons. The device, made of a 10 nm thin NbTiN film and fabricated on a dielectric substrate (SiO2, Nb3O5) detected 1000 times larger signal than anticipated from direct X-ray absorption. We attributed this effect to X-ray induced generation of secondary particles in the substrate. The enhancement corresponds to an increase in the flux by the factor of 3.6, relative to a state-of-the-art commercial X-ray silicon drift detector. The detector exhibited 8.25 ns temporal recovery time and 82 ps timing resolution, measured using optical photons. Our results emphasize the importance of the substrate in superconducting X-ray single photon detectors.