Pointwise and generalized virial theorems

The formal relationships between the scalar and tensorial virials and Eshelby tensors have been presently investigated. The key idea is to evaluate the Eshelby stress from discrete or atomistic simulations for a structured body, conceived as a numerical homogenization method to reconstitute the macr

The energy equipartition and virial theorems are discussed within general thermostatistical formalisms. Appropriate forms for these theorems reducing to the standard ones in the case of the Boltzmann-Gibbs approach are derived. As a general result, the equation of state for an ideal gas is modified

In this article we derive for an arbitrary, real, local (multiplicative), time-dependent (TD) external potential, the differential form of the virial theorem for the pure state in TD Schrödinger theory. We contrast this pure-state theorem with the many-body theory equation of motion for both equilib

The virial theorem for molecules is shown to have two different forms, one employing the energy gradient the other involving the Hellmann-Feynman force. While the former VT can be fulfilled by a uniform scaling of the basis set, the latter cannot be satisfied in certain basis sets, and can give unre