• DocumentCode
    1300127
  • Title

    Dopant Content and Thermal Treatment of {\\rm Cd} _{1-{\\rm x}} {\\rm Zn} _{\\rm x} {\\rm Te} \\langle {\\rm In}\\rangle : Effects on Point-Defect Structures

  • Author

    Fochuk, Petro ; Nykonyuk, Yevhen ; Verzhak, Yevheniya ; Kopach, Oleh ; Panchuk, Oleg ; Bolotnikov, Aleksey ; James, Ralph B.

  • Author_Institution
    Chernivtsi Nat. Univ., Chernivtsi, Ukraine
  • Volume
    56
  • Issue
    4
  • fYear
    2009
  • Firstpage
    1784
  • Lastpage
    1790
  • Abstract
    We measured, in the 873-1173 K temperature range, the temperature- and Cd vapor-pressure-dependences of the free electron density in single CdTe(In) crystals with different In contents. Increasing the cooling rate of the crystals and/or decreasing the well-defined Cd vapor pressure reduced the free-electron density. We interpreted and modelled these phenomena and the crystal´s high-temperature electrical properties within the framework of Kroger´s point-defect theory. Our experiments demonstrated the possibility of controlling the free-electron density in CdTe(In) crystals by changing the cooling rate. We supplemented a point-defect structural study of CZT(In) crystals by low-temperature (80-420 K) electrical measurements. These findings allowed us to identify the nature of the point defects responsible for free-carrier scattering, which is an important parameter influencing the mutau-product value in detector-grade material.
  • Keywords
    Hall effect; II-VI semiconductors; cadmium compounds; defect states; electron density; high-temperature effects; indium; point defect scattering; point defects; semiconductor doping; zinc; Cd vapor pressure; Cd1-xZnxTe(In); Hall effect; Kroger´s point-defect theory; cooling rate; detector-grade material; dopant content; free electron density; free-carrier scattering; high-temperature electrical properties; point-defect structures; temperature 80 K to 420 K; temperature 873 K to 1173 K; thermal treatment; Cooling; Crystals; Density measurement; Electric variables measurement; Electrons; Scattering parameters; Tellurium; Temperature control; Temperature distribution; Zinc; CdTe; Hall effect; cooling rate; point defects;
  • fLanguage
    English
  • Journal_Title
    Nuclear Science, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9499
  • Type

    jour

  • DOI
    10.1109/TNS.2009.2021185
  • Filename
    5204756