A Bayesian approach to modelling spectrometer data chromaticity corrected using beam factors – I. Mathematical formalismPeter Sims, Akshatha K Vydula, Steven Murray et al.|Monthly Notices of the Royal Astronomical Society|2023Cited by 23
Analytic Approximations of Scattering Effects on Beam Chromaticity in 21‐cm Global ExperimentsA. E. E. Rogers, Peter Sims, C. J. Lonsdale et al.|Radio Science|2022Cited by 12
A general Bayesian model-validation framework based on null-test evidence ratios, with an example application to global 21-cm cosmologyPeter Sims, Akshatha K Vydula, A. E. E. Rogers et al.|Monthly Notices of the Royal Astronomical Society|2025Cited by 3
A Bayesian approach to modelling spectrometer data chromaticity corrected using beam factors – II. Model priors and posterior oddsPeter Sims, Akshatha K Vydula, A. E. E. Rogers et al.|Monthly Notices of the Royal Astronomical Society|2025Cited by 2
A Bayesian approach to modelling spectrometer data chromaticity corrected using beam factors -- II. Model priors and posterior oddsPeter Sims, Akshatha K. Vydula, A. E. E. Rogers et al.|arXiv (Cornell University)|2025Cited by 1