Student Speaker: Mohamed Benaissa
Title: Discussion of Paper by Jeffrey J. Love: "On the lognormality of historical magnetic storm intensity statistics: Implications for extreme‐event probabilities"
Abstract: An examination is made of the hypothesis that the statistics of magnetic storm maximum intensities are the realization of a lognormal stochastic process. Weighted least squares and maximum likelihood methods are used to fit lognormal functions to −Dst storm time maxima for years 1957–2012; bootstrap analysis is used to established confidence limits on forecasts. Both methods provide fits that are reasonably consistent with the data; both methods also provide fits that are superior to those that can be made with a power‐law function. In general, the maximum likelihood method provides forecasts having tighter confidence intervals than those provided by weighted least squares. From extrapolation of maximum likelihood fits: a magnetic storm with intensity exceeding that of the 1859 Carrington event, −Dst ≥ 850 nT, occurs about 1.13 times per century and a wide 95% confidence interval of [0.42, 2.41] times per century; a 100 year magnetic storm is identified as having a −Dst ≥ 880 nT (greater than Carrington) but a wide 95% confidence interval of [490, 1187] nT.
Bio: Mohamed Benaissa is a first-year graduate student in Professor Raluca Ilie's group. He graduated with his Bachelor's in Electrical Engineering at the University of Texas at Dallas. His research will be related to the numerical models that describe plasma physics around the Earth.