Abstract

A new technique has been developed for measuring electron drift mobility in crystals on a microscopic scale through its effect on muonium (p, e ) atom formation via transport of electrons to thermalized positive muons (p, +). Electron transport mechanisms are shown to be fundamentally different in the n and P phases of solid nitrogen, giving at least 5 orders of magnitude difference in electron mobilities. Contrary to reported results of macroscopic time-of-flight measurements, excess electrons appear to be delocalized in n -Nq. PACS numbers: 71.25.— s, 73.20.Jc, 76.75.+i

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