Viterbi decoding of CRES signals in Project 8
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Published:2022-05-01
Issue:5
Volume:24
Page:053013
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ISSN:1367-2630
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Container-title:New Journal of Physics
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language:
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Short-container-title:New J. Phys.
Author:
Ashtari Esfahani A, Bogorad Z, Böser S, Buzinsky NORCID, Claessens C, de Viveiros L, Fertl MORCID, Formaggio J AORCID, Gladstone L, Grando M, Guigue M, Hartse J, Heeger K M, Huyan X, Johnston J, Jones A M, Kazkaz KORCID, LaRoque B H, Li M, Lindman A, Matthé C, Mohiuddin RORCID, Monreal B, Nikkel J A, Novitski EORCID, Oblath N S, Peña J I, Pettus WORCID, Reimann RORCID, Robertson R G H, Rybka GORCID, Saldaña LORCID, Schram M, Slocum P LORCID, Stachurska J, Sun Y-H, Surukuchi P TORCID, Telles A B, Thomas F, Thomas M, Thümmler T, Tvrznikova LORCID, Van De Pontseele W, VanDevender B A, Weiss T EORCID, Wendler T, Zayas E, Ziegler AORCID
Abstract
Abstract
Cyclotron radiation emission spectroscopy (CRES) is a modern approach for determining charged particle energies via high-precision frequency measurements of the emitted cyclotron radiation. For CRES experiments with gas within the fiducial volume, signal and noise dynamics can be modelled by a hidden Markov model. We introduce a novel application of the Viterbi algorithm in order to derive informational limits on the optimal detection of cyclotron radiation signals in this class of gas-filled CRES experiments, thereby providing concrete limits from which future reconstruction algorithms, as well as detector designs, can be constrained. The validity of the resultant decision rules is confirmed using both Monte Carlo and Project 8 data.
Funder
National Science Foundation Nuclear Physics Laboratory Directed Research and Development Deutsche Forschungsgemeinschaft
Subject
General Physics and Astronomy
Cited by
1 articles.
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