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0, Evans and Streett use a generalization of the Green-Kubo relation that allows the fluxes to be in any arbitrary direction. Notice that the correlation function is given by a double contraction of the couple tensor which is why it is necessary to divide with a factor 10. In this work we have used the standard Green-Kubo formalism with three correlation functions (one for each off-diagonal tensor element), hence the factor of 3. These two expressions are equivalent and produce the same transport coefficients.
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0, Evans and Streett use a generalization of the Green-Kubo relation that allows the fluxes to be in any arbitrary direction. Notice that the correlation function is given by a double contraction of the couple tensor which is why it is necessary to divide with a factor 10. In this work we have used the standard Green-Kubo formalism with three correlation functions (one for each off-diagonal tensor element), hence the factor of 3. These two expressions are equivalent and produce the same transport coefficients.
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24
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77958089613
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r, Evans and Streett use the vector dual of the antisymmetric part of the couple tensor. This vector can be found as given in Eq. (12) in our paper. From Eq. (17b) it can be seen that we use the exact same tensor components as Evans and Street [notice their dot product in Eq. (17) in Ref.].
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r, Evans and Streett use the vector dual of the antisymmetric part of the couple tensor. This vector can be found as given in Eq. (12) in our paper. From Eq. (17b) it can be seen that we use the exact same tensor components as Evans and Street [notice their dot product in Eq. (17) in Ref.].
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