1974 年 36 巻 3 号 p. 653-656
A theory of cyclotron resonance is developed for the single crystal graphite by introducing the effect of spatial dispersion. Owing to the Doppler shifts of resonance frequencies, a considerable change of the resonance line shape is predicted for a widely spreading hole resonance spectrum which makes the detection of the hole resonance possible in some experimental conditions. The structure at H=400 Oe., ω=23 GHz observed in the derivative curves of the absorption by Suematsu and Tanuma which has not yet been understood by the local theory is realized in the calculated curves and is attributed to the predicted signal of the hole resonance.
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