In this contribution, which is based on the results published in Barletti (J Math Phys 55:083303, 2014) and Barletti et al. (Tr Inst Mat 11:11–29, 2014), we apply the maximum entropy closure technique in order to derive equations of hydrodynamic type for a system of particles with spin-orbit interaction, with particular focus on the case of electrons on a graphene sheet.
Derivation of a hydrodynamic model for electron transport in graphene via entropy maximization / Luigi Barletti. - STAMPA. - (2016), pp. 731-739. [10.1007/978-3-319-23413-7]
Derivation of a hydrodynamic model for electron transport in graphene via entropy maximization
Luigi Barletti
2016
Abstract
In this contribution, which is based on the results published in Barletti (J Math Phys 55:083303, 2014) and Barletti et al. (Tr Inst Mat 11:11–29, 2014), we apply the maximum entropy closure technique in order to derive equations of hydrodynamic type for a system of particles with spin-orbit interaction, with particular focus on the case of electrons on a graphene sheet.
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