Critical exponents: Difference between revisions
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[[ | ==Reduced distance: <math>\epsilon</math>== | ||
<math>\epsilon</math> is the reduced distance from the critical [[temperature]], i.e. | |||
:<math>\epsilon = \left| 1 -\frac{T}{T_c}\right|</math> | |||
Note that this implies a certain symmetry when the [[Critical points|critical point]] is approached from either 'above' or 'below', which is not necessarily the case. | |||
==Heat capacity exponent: <math>\alpha</math>== | |||
The [[heat capacity]] is given by <math>C</math> | |||
:<math>\left. C\right.=C_0 \epsilon^{-\alpha}</math> | :<math>\left. C\right.=C_0 \epsilon^{-\alpha}</math> | ||
Magnetic order parameter, | |||
==Magnetic order parameter exponent: <math>\beta</math>== | |||
The magnetic order parameter, <math>m</math> is given by | |||
:<math>\left. m\right. = m_0 \epsilon^\beta</math> | :<math>\left. m\right. = m_0 \epsilon^\beta</math> | ||
==Susceptibility exponent: <math>\gamma</math>== | |||
[[Susceptibility]] | [[Susceptibility]] | ||
:<math>\left. \chi \right. = \chi_0 \epsilon^{-\gamma}</math> | :<math>\left. \chi \right. = \chi_0 \epsilon^{-\gamma}</math> | ||
Correlation length | ==Correlation length== | ||
:<math>\left. \xi \right.= \xi_0 \epsilon^{-\nu}</math> | :<math>\left. \xi \right.= \xi_0 \epsilon^{-\nu}</math> | ||
==Rushbrooke equality== | |||
The Rushbrooke equality <ref>[http://dx.doi.org/10.1063/1.1734338 G. S. Rushbrooke "On the Thermodynamics of the Critical Region for the Ising Problem", Journal of Chemical Physics 39, 842-843 (1963)]</ref> , proposed by Essam and Fisher (Eq. 38 <ref>[http://dx.doi.org/10.1063/1.1733766 John W. Essam and Michael E. Fisher "Padé Approximant Studies of the Lattice Gas and Ising Ferromagnet below the Critical Point", Journal of Chemical Physics 38, 802-812 (1963)]</ref>) is given by | |||
:<math>\alpha + 2\beta + \gamma =2</math> | :<math>\alpha + 2\beta + \gamma =2</math> | ||
==Gamma divergence== | |||
When approaching the critical point along the critical isochore (<math>T > T_c</math>) the divergence is of the form | When approaching the critical point along the critical isochore (<math>T > T_c</math>) the divergence is of the form | ||
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where <math>\gamma</math> is 1.0 for the [[Van der Waals equation of state]], and is usually 1.2 to 1.3. | where <math>\gamma</math> is 1.0 for the [[Van der Waals equation of state]], and is usually 1.2 to 1.3. | ||
==Epsilon divergence== | |||
When approaching the critical point along the critical isotherm the divergence is of the form | When approaching the critical point along the critical isotherm the divergence is of the form | ||
Revision as of 15:21, 25 November 2009
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Reduced distance:
is the reduced distance from the critical temperature, i.e.
Note that this implies a certain symmetry when the critical point is approached from either 'above' or 'below', which is not necessarily the case.
Heat capacity exponent:
The heat capacity is given by
Magnetic order parameter exponent:
The magnetic order parameter, is given by
Susceptibility exponent:
Correlation length
Rushbrooke equality
The Rushbrooke equality [1] , proposed by Essam and Fisher (Eq. 38 [2]) is given by
Gamma divergence
When approaching the critical point along the critical isochore () the divergence is of the form
where is 1.0 for the Van der Waals equation of state, and is usually 1.2 to 1.3.
Epsilon divergence
When approaching the critical point along the critical isotherm the divergence is of the form
where is 2/3 for the Van der Waals equation of state, and is usually 0.75 to 0.8.
See also
References
- ↑ G. S. Rushbrooke "On the Thermodynamics of the Critical Region for the Ising Problem", Journal of Chemical Physics 39, 842-843 (1963)
- ↑ John W. Essam and Michael E. Fisher "Padé Approximant Studies of the Lattice Gas and Ising Ferromagnet below the Critical Point", Journal of Chemical Physics 38, 802-812 (1963)