Dynamic thermoelectricity in uniform bipolar semiconductor
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- 作者:I.N. Volovichev vin@ire.kharkov.ua" class="auth_mail" title="E-mail the corresponding author
- 关键词:Dynamic thermoelectric effect ; Thermoelectricity ; Thermopower ; Seebeck effect ; Nonequilibrium charge carriers
- 刊名:Physica B: Physics of Condensed Matter
- 出版年:2016
- 出版时间:1 July 2016
- 年:2016
- 卷:492
- 期:Complete
- 页码:70-76
- 全文大小:353 K
文摘
The theory of the dynamic thermoelectric effect has been developed. The effect lies in an electric current flowing in a closed circuit that consists of a uniform bipolar semiconductor, in which a non-uniform temperature distribution in the form of the traveling wave is created. The calculations are performed for the one-dimensional model in the quasi-neutrality approximation. It was shown that the direct thermoelectric current prevails, despite the periodicity of the thermal excitation, the circuit homogeneity and the lack of rectifier properties of the semiconductor system. Several physical reasons underlining the dynamic thermoelectric effect are found. One of them is similar to the Dember photoelectric effect, its contribution to the current flowing is determined by the difference in the electron and hole mobilities, and is completely independent of the carrier Seebeck coefficients. The dependence of the thermoelectric short circuit current magnitude on the semiconductor parameters, as well as on the temperature wave amplitude, length and velocity is studied. It is shown that the magnitude of the thermoelectric current is proportional to the square of the temperature wave amplitude. The dependence of the thermoelectric short circuit current on the temperature wave length and velocity is the nonmonotonic function. The optimum values for the temperature wave length and velocity, at which the dynamic thermoelectric effect is the greatest, have been deduced. It is found that the thermoelectric short circuit current changes its direction with decreasing the temperature wave length under certain conditions. The prospects for the possible applications of the dynamic thermoelectric effect are also discussed.