NS  Vol.2 No.1 , January 2010
Relationship between normalized thermal energy and conductivity for cylindrical tokamak geometry
Author(s) M. Asif
ABSTRACT
The relation between normalized thermal en-ergy and conductivity, with no particle sources in cylindrical tokamak geometry has been de-rived. It is obtained, . This relationship is of importance for tokamak confinement and heating.

Cite this paper
Asif, M. (2010) Relationship between normalized thermal energy and conductivity for cylindrical tokamak geometry. Natural Science, 2, 54-55. doi: 10.4236/ns.2010.21008.
References
[1]   Segre, S.E. and Zanza, V. (1992) A profile constraint and the value of beta in tokamak experiments. Plasma Phys-ics and Controlled Fusion, 34(11), 1619-1637.

[2]   Segre, S.E. and Zanza, V. (1993) A relation between the normalized thermal energy and the safety factor for to-kamaks. Nuovo Cimento, 15D(6), 897-901.

[3]   Bennett, W.H. (1934) Magnetically self-focusing streams. Physical Review, 45, 890-897.

[4]   Asif, M. (2008) Relationship between current density and mass density for ohmic tokamak plasmas. International Journal of Modern Physics B, 22(30), 5329-5333.

[5]   Asif, M. (2009) Relationship between viscosity and con-ductivity for tokamak plasmas. Brazilian Journal of Physics, 39(1), 59-61.

[6]   Segre, S.E. and Zanza, V. (1992) Is the perpendicular resistivity in tokamaks really much greater than the Spitzer value? Physics of Fluid, 4(10), 3457-3459.

 
 
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