Markov Chain Monte Carlo methods applied to measuring the fine structure constant from quasar spectroscopy

  • King J
  • Mortlock D
  • Webb J
  • et al.
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Abstract

Recent attempts to constrain cosmological variation in the fine structure constant, α, using quasar absorption lines have yielded two statistical samples which initially appear to be inconsistent. One of these samples was subsequently demonstrated to not pass consistency tests; it appears that the optimisation algorithm used to fit the model to the spectra failed. Nevertheless, the results of the other hinge on the robustness of the spectral fitting program VPFIT, which has been tested through simulation but not through direct exploration of the likelihood function. We present the application of Markov Chain Monte Carlo (MCMC) methods to this problem, and demonstrate that VPFIT produces similar values and uncertainties for Δα/α, the fractional change in the fine structure constant, as our MCMC algorithm, and thus that VPFIT is reliable.

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King, J., Mortlock, D., Webb, J., & Murphy, M. (2009). Markov Chain Monte Carlo methods applied to measuring the fine structure constant from quasar spectroscopy. Proceedings of the International Astronomical Union, 5(H15), 318–318. https://doi.org/10.1017/s1743921310009555

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