2012
DOI: 10.1134/s0031918x12040084
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On the experimental substantiation of the hybridization of electronic states on cobalt impurities in the conduction band of a crystal

Abstract: The article presents the experimental results concerning the role of cobalt impurities in low tem perature electrical conduction and in the Hall concentration of electrons in crystals of mercury selenide. In the limit of small concentrations of the impurities, a slow variation of the electron concentration was found as a function of impurity content, which can correspond to a donor character of the impurity d levels of cobalt atoms located in the conduction band of the host crystal under conditions of hybridiz… Show more

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Cited by 4 publications
(5 citation statements)
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“…It turned out that the position of the minimum is uniquely deter mined by the position of the Fermi energy within the resonance interval (by the quantity ε 0 ), i.e., the con centration of electron donors and, hence, the concen tration of impurities. The obtained values of ε 0 in the minima for three concentrations lie in the range of 14-31 K and agree with the values corresponding to the hybridization interval according to the existing concepts [11]. The available data also agree with the obtained conclusion that the parameter Γ characteriz ing the length of the hybridization interval exceed 40 K. An important new result consists in determining the parameter γ = 0.2 K, which characterizes the relaxation frequency of the electronic system of hybridized states.…”
Section: Explanation and Quantitative Interpretation Of The Temperatusupporting
confidence: 78%
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“…It turned out that the position of the minimum is uniquely deter mined by the position of the Fermi energy within the resonance interval (by the quantity ε 0 ), i.e., the con centration of electron donors and, hence, the concen tration of impurities. The obtained values of ε 0 in the minima for three concentrations lie in the range of 14-31 K and agree with the values corresponding to the hybridization interval according to the existing concepts [11]. The available data also agree with the obtained conclusion that the parameter Γ characteriz ing the length of the hybridization interval exceed 40 K. An important new result consists in determining the parameter γ = 0.2 K, which characterizes the relaxation frequency of the electronic system of hybridized states.…”
Section: Explanation and Quantitative Interpretation Of The Temperatusupporting
confidence: 78%
“…It should be noted that, in contrast to the iron impurity atom with one donor electron, the cobalt impurity atom has two donor electrons and two donor energy levels. However, the data on the temperature depen dences of different quantities indicate that the two aforementioned levels in mercury selenide crystals doped with cobalt are spaced so closely that, when dealing with such dependences, they can be consid ered as one level occupied by two electrons [11]. It is this approximation that is accepted in our work.…”
Section: Explanation and Quantitative Interpretation Of The Temperatumentioning
confidence: 88%
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“…1, the oscillations, at doping with Co ions, have a significantly bigger period compared with oscillations at doping with Fe ions. This difference is caused by the fact that Fermi level is located significantly lower in the first case than in the second, that corresponds with the results of the referenced studies [6,17,18,20].…”
Section: Sdh Effect Manifestationsupporting
confidence: 77%
“…It contains only one line, that in some directions is weakly split by the crystal field. Electron in the degenerated conductivity band has the resonance energy level E C ∼ 0.09 eV [20].…”
Section: Samples and Measurement Proceduresmentioning
confidence: 99%