Fractionalization and Fermi surface volume in heavy fermion compounds: the case of YbRh2 Si2
Abstract
We establish an effective theory for heavy fermion compounds close to a zero temperature Anti-Ferromagnetic (AF) transition. Coming from the heavy Fermi liquid phase across to the AF phase, the heavy electron fractionalizes into a light electron, a bosonic spinon and a new excitation: a spinless fermionic field. Assuming this field acquires dynamics and dispersion when one integrates out the high energy degrees of freedom, we give a scenario for the volume of its Fermi surface through the phase diagram. We apply our theory to the special case of YbRh2(Si1-x Gex)2 where we recover, within experimental resolution, several low temperature exponents for transport and thermodynamics.
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