Abstract
The “on-axis” and “off-axis” regimes of quantum transport discussed theoretically in the preceding paper in this journal have been observed experimentally. The observation of the “on-axis” regime required magnetic field alignment to within an accuracy of ±0.002° of the basal plane. The data for the “off-axis” regime indicate that the electron quantum state lifetime for this crystal is about 5×10−10 sec at 4.2 K. A comparison between the predictions of first principles theory and the experimental results in these two regimes shows that the theory not only predicts the qualitative behavior correctly but also provides a quantitatively accurate description for the transverse magnetoresistance.
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R. W. Stark and R. Riefenberger,J. Low Temp. Phys., this issue, preceding paper.
R. Reifenberger,J. Low Temp. Phys., this issue, following paper.
R. W. Stark, C. B. Friedberg, and R. Reifenberger, to be published.
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Supported by NSF Grant GH-39932.
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Stark, R.W., Reifenberger, R. Comparison of theory and experiment for two regimes of quantum interference oscillations in the transverse magnetoresistance of pure magnesium. J Low Temp Phys 26, 819–826 (1977). https://doi.org/10.1007/BF00654880
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DOI: https://doi.org/10.1007/BF00654880