Cyclotron resonance in (GaAs)n/(AlAs)n superlattices under ultra-high magnetic fields

Cyclotron resonance (CR) measurements have been carried out to evaluate the effective masses of electrons at the AlAs X point of the Brillouin zone in short period (GaAs),/(A1As). superlattices (SLs) with n = 8-14. The longitudinal effective mass was deduced to be m 1 = 1.04m 0 by analyzing a deviat

We have performed cyclotron resonance and Faraday rotation experiments in n-type CdS at ultra-high magnetic fields far above 100 T which is generated by either electromagnetic flux compression or single turn coil technique. The electron effective mass of CdS is investigated for both B jj c-axis and

Ultra-high magnetic field (<150 T) cyclotron resonance has been studied in superlattices of InAs/GaSb with band gaps close to zero where the effects of conduction and valence bands are enhanced. Several samples exhibit a low-field structure associated with the N = 2 and 4 harmonics of the cyclotron

Cyclotron resonance (CR) measurements have been carried out to evaluate the effective mass of electron in (InGaAs) n /(GaAs) n superlattices (SLs) and (InGaAs) n /(AlAs) n SLs. To clarify the dependence of cyclotron mass on the monolayer number n, we measured CR signals using pulsed high-magnetic fi