Abstract
Transport properties of the narrow-gap semiconductors PbTe, PbSnTe, and HgCdTe were studied in the extreme magnetic quantum limit. With low carrier densities an anomalous behaviour was found for the longitudinal (ϱ □) and the transverse (ϱ ⊥) magnetoresistance, for the Hall effect, and in the IU-characteristic. ϱ □ increased near a critical magnetic field by almost two orders of magnitude. A pronounced kink in the ϱ ⊥ ∝ B α dependence took place at the critical field. This critical magnetic field of the anomaly shows the features predicted for a Wigner condensation, i.e. the dependence on carrier density in all the three semiconductors. The new state at high magnetic fields is obviously a free carrier effect since it can be annihilated by heating the electrons in an electric field.
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