Heavy Electron Physics: Electrons on the edge of Magnetism 2

submitted by: icamvid

Piers Coleman discusses a model for large N aproach to heavy fermion metals and superconductivity

Experimental Aspects of Heavy-Fermion materials

submitted by: icamvid

Pascoal G. Pagliuso talks about the history of the discoveries of heavy fermion materials and examples of multiple ground states.

Experimental Aspects of Heavy-Fermion materials

submitted by: icamvid

Pascoal G. Pagliuso gives an introduction to heavy fermion materials.

The Standard Model Architecture and Interactions Part 2 The Fermion Interaction

submitted by: cloudmichael
The Standard Model Architecture and Interactions Part 2 © 2011 Claude Michael Cassano The Fermion Interaction: An interaction with entry ingredients A,B and exit ingredients C,D is denoted as you see, here: A+B → C+D which implies it's anti-equivalent. A fermion interaction is an interaction between first and second order objects, i.e.: between solitary S sub R matrices. The initial step in a fermion interaction...

The Standard Model Architecture and Interactions Part 1

submitted by: cloudmichael
The Standard Model Architecture and Interactions © 2011 Claude Michael Cassano Based on my 1984 linearization of the Klein-Gordon equations, potential functions generalizations of the electric and magnetic field strengths form a basis from which a compound model simply constructs the leptons; the simple differences between the quarks and leptons; how the quarks arose from the leptons; why there are these two types of fermions; and why there are precisely three generations for each...