REFERENCES |
273 |
mV K−1
. |
MPa |
.
.
103 K
Fig. 6.13. Isobars of the thermoelectric coe cient for mercury (Lagar’kov and Sarychev
1979). The curves correspond to calculations. The symbols • correspond to experiment by Schmutzler and Hensel (1973) and +, , and ◦ to the experiment by Alekseev et al. (1976).
remain in fact unclarified.
References
Alekseev, V. A. and Iakubov, I. T. Electrical conductivity and thermoelectromotive force of alkali metals. (1986). In Handbook of thermodynamic and transport properties of alkali metals, Ohse, R. W.(ed.), pp. 703–734. Blackwell, Oxford.
Alekseev, V. A., Vedenov, A. A., Krasitskaya, L. S., and Starostin, A. N. (1970). Thermoelectric power of cesium near critical temperatures and pressures. JETP Lett., 12, 351–354.
Alekseev, V. A., Vedenov, A. A., Ovcharenko, V. G., Krasitskaya, L. S., Rizhkov, Y. F., and Starostin, A. N. (1975). The e ect of saturation on the thermo– e.m.f. of caesium at high temperatures and pressures. High Temp.–High Press., 7, 677–679.
Alekseev, V. A., Ovcharenko, V. G., and Ryzhkov, Y. F. (1976). Metal–dielectric transition in liquid–metals and semiconductors at high–temperatures and pressures in critical–point region. Sov. Phys. Usp., 120, 699–702.
Atrazhev, V. M. and Yakubov, I. T. (1980). Heating waves in high–current discharges in dense alkali–metal vapors. High Temp., 18, 14–24.
Bederson, B. and Kie er, L. J. (1971). Total electron–atom collision cross sections at low energies – a critical review. Rev. Mod. Phys., 43, 601–640.
Cohen, R. S., Spitzer, L., Jr., and Routly P. McR. (1950). The electrical conductivity of an ionized gas. Phys. Rev., 80, 230–238.
274 ELECTRICAL CONDUCTIVITY OF PARTIALLY IONIZED PLASMA
Gilardini, A. (1972). Low energy electron collisions in gases. Wiley, New York. Gogoleva, V. V., Zitserman, V. Y., Polishchuk, A. Y., and Yakubov, I. T. (1984).
Electrical–conductivity of an alkali–metal–vapor plasma. High Temp., 22, 163– 170.
Hensel, F., and Franck, E. U. (1968). Metal–nonmetal transition in dense mercury vapor. Rev. Mod. Phys., 40, 697–703.
Hernandez, J. (1991). Electron self–trapping in liquids and dense gases. Rev. Mod. Phys. 63, 675–697.
Iakubov, I. T. and Polischuk, A. Y. (1982). Quantum density corrections to mobility and dispersion law for electrons in a medium of disordered scatterers. J. Phys. B, 15, 4029–4041.
Iakubov, I. T., and Likalter A. A. (1987). New results in the field of a nonideal plasma–experiments and interpretation. Contr. Plasma Phys., 27, 479–490.
Khrapak, A. G. (1979). Conductivity of a weakly nonideal multicomponent alkali–metal vapor plasma. High Temp., 17, 946–951.
Khrapak, A. G. and Iakubov, I. T. (1981). Electrons in dense gases and plasma. Nauka, Moscow.
Kie er, L. J. (1971). Low–energy electron–collision cross–section data. Part III: Total scattering: Di erential elastic scattering. Atomic Data, 2, 293–330.
Kirzhnits, D. A., Lozovik, Y. E., and Shpatakovskaya, G. V. (1975). Statistical model of substance. Sov. Phys. Usp., 117, 1–47.
Kraeft, W. D., Kremp, D., Ebeling, W., and R¨opke, G. (1985). Quantum statistics of charged particle system. Akad. Verlag, Berlin.
Lagar’kov, A. N., and Sarychev, A. K. (1975). Dynamics of a classical electron in a dense medium of disordered scatterers. JETP, 41, 317–320.
Lagar’kov, A. N., and Sarychev, A. K. (1978). Dynamics of an electron in a random field and the conductivity of a dense mercury plasma. High Temp., 16, 773–782.
Lagar’kov, A. N., and Sarychev, A. K. (1979). E ect of ion clusters on ionization equilibrium and conductivity of a dense weakly ionized cesium plasma at subcritical temperatures and pressures. High Temp., 17, 393–398.
Lifshitz, I. M. (1965). Energy spectrum structure and quantum states of disordered condensed systems. Sov. Phys. Usp., 7, 549.
Lifshitz, E. M. and Pitaevskii, L. P. (1981). Physical kinetics. Pergamon Press, Oxford.
Morrow, R. and Craggs, J. D. (1973). Electrical conductivity of sodium vapor. J. Phys. D, 6, 1274–1282.
Neale, F. E., and Cusack, N. E. (1979). Thermoelectric–power near the critical– point of expanded fluid mercury. J. Phys. F – Metal Physics, 9, 85–94.
Podlubnyi, L. I. and Rostovskii, V. S. (1980). Theory of the equilibrium and kinetic properties of plasmas incorporating the electron shells of ions. Sov. J. Plasma Phys., 6, 734–740.
Podlubnyi, L. I., Rostovskii, V. S., and Filinov, V. S. (1988). Electrical–conduc- tivity of nonideal argon and xenon plasma. High Temp., 26, 153–159.
REFERENCES |
275 |
Redmer, R., Reinholz, H., and R¨opke, G. (1990). (private communication). Schmutzler, R. W. and Hensel, F. (1973). Thermoelectric power of fluid mer-
cury in density range of metal–nonmetal transition. Berichte der Bunsen– Gesellschaft fur Physikalische Chemie, 76, 531–535.
Shklovskii, B. I. and Efros, A. L. (1984). Electronic properties of doped semiconductors. Springer, Berlin.
Spitzer, L., Jr., and H¨arm, R. (1953). Transport phenomena in completely ionized gas. Phys. Rev., 89, 977–981.
Spitzer, L., Jr. (1962). Physics of fully ionized gases. Interscience Publishers, New York.
Ziman, J. M. (1979). Models of disorder. The theoretical physics of homogeneously disordered systems. Cambridge University Press, Cambridge.