Sold Out
Book Categories |
This book gives an original and up-to-date theory of the second order phase transitions based on the effective functional integral method. Unlike previous works, this theory is constructed ab initio, leading to a consistent description starting from the basic principles of statistical physics. The author introduces a new basic density measure, different from the Gaussian one, to describe the fluctuation in the system in the vicinity of the phase transition point. A new efficient method for partition function integration over the phase space layers is shown, as well as complete solutions of the recursion relations. For the first time, equations are found for the critical temperature and analytical calculations are accompanied by accurate numerical computations. The extensions of the theory for the cases of binary alloys and n-component Stanley model are considered and the collective variables representation for the cluster ferroelectric model are obtained. This modern theory of the phenomena at the second order phase transitions is a breakthrough in this area and would make an exceptionally valuable book for scientists, as well as an important textbook for postgraduates and undergraduates.
Login|Complaints|Blog|Games|Digital Media|Souls|Obituary|Contact Us|FAQ
CAN'T FIND WHAT YOU'RE LOOKING FOR? CLICK HERE!!! X
You must be logged in to add to WishlistX
This item is in your Wish ListX
This item is in your CollectionPhase Transitions of the Second Order: Collective Variables Method
X
This Item is in Your InventoryPhase Transitions of the Second Order: Collective Variables Method
X
You must be logged in to review the productsX
X
X
Add Phase Transitions of the Second Order: Collective Variables Method, , Phase Transitions of the Second Order: Collective Variables Method to the inventory that you are selling on WonderClubX
X
Add Phase Transitions of the Second Order: Collective Variables Method, , Phase Transitions of the Second Order: Collective Variables Method to your collection on WonderClub |