Add to ORKGA theoretical analysis of the dynamic stability of a supercooled simple liquid to finite amplitude periodic density waves is presented. The theory predicts absence of a classical spinodal point for a simple one component liquid. A dynamical constraint on the formation of the bcc phase is revealed
Here we find through computer simulations and theoretical analysis that the low temperature thermody...
Here we find through computer simulations and theoretical analysis that the low temperature thermody...
We study the dynamics of two closely related periodic systems, superconducting rings and charge-dens...
A theoretical analysis of the dynamic stability of a supercooled simple liquid to finite amplitude p...
A theoretical analysis of the dynamic stability of a supercooled simple liquid to finite amplitude p...
We present a theoretical analysis of the dynamic stability of a supercooled simple liquid to finite ...
We write equations of motion for density variables that are equivalent to Newton’s equations. We the...
We write equations of motion for density variables that are equivalent to Newton's equations. We the...
It is argued that the liquid solid transition is best studied with the liquid as the starting point....
We report a theory of freezing based on analysis of the solutions of the equation describing the inh...
Models for the supercooled liquid are considered both from the structural as well as dynamical consi...
The transition parameters for the freezing of two one-component liquids into crystalline solids are ...
The question of “what is the structure of water?” has been regarded as one of the major scientific c...
We incorporate the effects of fluctuations in a density functional analysis of the freezing of a col...
We consider glassy relaxation by using a model for supercooled liquid where the usual set of hydrody...
Here we find through computer simulations and theoretical analysis that the low temperature thermody...
Here we find through computer simulations and theoretical analysis that the low temperature thermody...
We study the dynamics of two closely related periodic systems, superconducting rings and charge-dens...
A theoretical analysis of the dynamic stability of a supercooled simple liquid to finite amplitude p...
A theoretical analysis of the dynamic stability of a supercooled simple liquid to finite amplitude p...
We present a theoretical analysis of the dynamic stability of a supercooled simple liquid to finite ...
We write equations of motion for density variables that are equivalent to Newton’s equations. We the...
We write equations of motion for density variables that are equivalent to Newton's equations. We the...
It is argued that the liquid solid transition is best studied with the liquid as the starting point....
We report a theory of freezing based on analysis of the solutions of the equation describing the inh...
Models for the supercooled liquid are considered both from the structural as well as dynamical consi...
The transition parameters for the freezing of two one-component liquids into crystalline solids are ...
The question of “what is the structure of water?” has been regarded as one of the major scientific c...
We incorporate the effects of fluctuations in a density functional analysis of the freezing of a col...
We consider glassy relaxation by using a model for supercooled liquid where the usual set of hydrody...
Here we find through computer simulations and theoretical analysis that the low temperature thermody...
Here we find through computer simulations and theoretical analysis that the low temperature thermody...
We study the dynamics of two closely related periodic systems, superconducting rings and charge-dens...