M. Hidari scite author profile

Physica Status Solidi (b)

2007

Calculations of the p-polarized far infrared magnetoplasmon reflectivity of semimagnetic semiconductor Cd x Mn 1-x Te doped ternary alloy in the presence of a magnetic field parallel to the surface of the sample (the Voigt geometry) are used to investigate magnetoplasmon and zone center optical phonon frequencies. It is assumed that the sample is characterized by a dielectric tensor in which the optical phonon contribution and free carriers (plasmon and cyclotron response) are included. The results show that the transverse optical phonon mode is sensitive to the alloy composition, x, and can be used to determine the value of x. The longitudinal optical phonon frequencies are shifted due to phonon-plasmon coupling in doped samples. Also, the influence of composition on the vibrational modes in zinc blende Cd x Mn 1-x Te is described within a modified random element isodisplacement (MREI) approach. By indicating the plasmon and cyclotron frequencies from p-polarized reflectivity spectra and the Voigt permittivity, we calculated the carrier concentration and the effective masses of the carriers. Furthermore, we indicate the frequencies of the phonons at the Г, K, X and L high symmetry points of the Brillouin zone based on a microscopic secondneighbor rigid ion model (RIM).

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Far Infrared Characterization of Semimagnetic Semiconductor CdTe-Cd1xMnxTe Multi Quantum Wells

Parker

2006

The Magneto-Optical Response of Diluted Magnetic Semiconductor CdTe-Cd_1-xMn_xTe Multi Quantum Wells in the Voigt Configuration

2009

Acta Phys. Pol. A

We have calculated the s-and p-polarized far infrared magnetoplasmon spectra of doped CdTe-Cd1−xMnxTe multi quantum wells in the presence of a static magnetic field up to 20 T parallel to the surface of the layers using a macroscopic model based on effective medium theory, using a novel approach which gives a good account of the data together with a clear physical interpretation of the various spectral features, such as the free carrier and optical phonon properties. The results show that the transverse optical modes (for the whole composition range, x = 0 to 1) are sensitive and change linearly with respect to the composition parameter. In p-polarized reflectivity the cyclotron resonance experiences a blue shift when the magnetic field strength increases. Also, the analysis of the dielectric tensor function and the Voigt dielectric function is used to determine the carriers' cyclotron effective masses (for both holes and electrons) as a function of composition. Furthermore, a modified random element iso-displacement approach has been extended for the multi layers to analyze the influence of the composition on the optical phonon response in the barrier layer.

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Effect of magnetic field on optical and electronic properties of doped CdxMn1l. Te semimagnetic semiconductor

Parker³