Ordering of manganese spins in photoconducting $Zn_{1-x}Mn_xTe$

  • Kajitani, T. (Department of Applied Physics, Graduate School of Engineering, Tohoku University) ;
  • Kamiya, T. (Department of Applied Physics, Graduate School of Engineering, Tohoku University) ;
  • Sato, K. (Department of Applied Physics, Graduate School of Engineering, Tohoku University) ;
  • Shamoto, S. (Department of Applied Physics, Graduate School of Engineering, Tohoku University) ;
  • Ono, Y. (Department of Applied Physics, Graduate School of Engineering, Tohoku University) ;
  • Sato, T. (the Research Institute for Scientific Measurements, Tohoku University) ;
  • Oka, Y. (the Research Institute for Scientific Measurements, Tohoku University)
  • 발행 : 1998.06.01

초록

Single crystals of{{{{ { Zn}_{ 1-x} {Mn }_{x }{Te} }}}} with x=0.3-0.6 were prepared by the standard Bridgeman method. Diffuse neutron diffraction intensities due to the short range magnetic ordering is found in the vicinities of 1 1/2 0 reciprocal point and its equivalent point, indicating that the magnetic correlation of the clusters is the type III antiferromangetic one do the F-type Bravais class crystals, being identical with that of {{{{{ Cd}_{ 1-x} {Mn }_{x }Te }}}}. Neutron inelastic scattering measure-ment has been performed for {{{{{ Zn}_{ 0.6} { Mn}_{ 0.4}Te }}}} sample using the cold neutron spectrometer. AGNES. High resolution measurement with the energy resolution of {{{{ TRIANGLE E= +- .01meV}}}} was carried out in the temperature range from 10K to the ambient. Critical scattering, closely related with the spin glass transition, has been observed for the first time in this semimagnetic semi-conductor. The critical scattering is observed at temperatures in the vicinity of the spin glass transition temperature, 17K. The scattering is observed as a kind of quasielastic scattering in the reciprocal range where the elastic magnetic diffuse scattering has been observed, e.g., 11/20 reciprocal point, indicating the spin fluctuation has dynamic components in this material. Photoconductivity has been discovered below 150K in {{{{{ Zn}_{ 0.4} {Mn }_{0.6 } Te}}}}. The electric AC conductivity has been increased dramatically under the laser light with the wave lengths of {{{{ lambda =6328,5145 and4880 }}}}$\AA$ ,respectively. After the light was darkened, the conductivity was reduced to the original level after about 2000 seconds at 50K, being above the spin glass transition temperature. This phenomenon is the typical persistent photoconductivity; PPC which was similarly found in {{{{ { Zn}_{ 1-x} { Mn}_{x} Te}}}}.

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