Kondo breakdown in multi-orbital Anderson lattices induced by destructive hybridization interference

Eickhoff, Fabian; Anders, Frithjof

doi:10.21468/SciPostPhys.17.3.069

SciPost Physics

Kondo breakdown in multi-orbital Anderson lattices induced by destructive hybridization interference

Fabian Eickhoff, Frithjof B. Anders

SciPost Phys. 17, 069 (2024) · published 2 September 2024

doi: 10.21468/SciPostPhys.17.3.069
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Abstract

In this paper we consider a multi band extension to the periodic Anderson model. We use a single site DMFT(NRG) in order to study the impact of the conduction band mediated effective hopping of the correlated electrons between the correlated orbitals onto the heavy Fermi liquid formation. Whereas the hybridization of a single impurity model with two distinct conduction bands always adds up constructively, $T_{K}\propto \exp(-\mathrm{const}\, U/(\Gamma_1+\Gamma_2))$, we show that this does not have to be the case in lattice models, where, in remarkable contrast, also an low-energy Fermi liquid scale $T_0\propto \exp(-\mathrm{const}\, U/(\Gamma_1-\Gamma_2))$ can emerge due to quantum interference effects in multi band models, where $U$ denotes the local Coulomb matrix element of the correlated orbitals and $\Gamma_i$ the local hybridization strength of band $i$. At high symmetry points, heavy Fermi liquid formation is suppressed which is associated with a breakdown of the Kondo effect. This results in an asymptotically scale-invariant (i.e., power-law) spectrum of the correlated orbitals $\propto|\omega|^{1/3}$, indicating non-Fermi liquid properties of the quantum critical point, and a small Fermi surface including only the light quasi-particles. This orbital selective Mott phase demonstrates the possibility of metallic local criticality within the general framework of ordinary single site DMFT.

TY  - JOUR
PB  - SciPost Foundation
DO  - 10.21468/SciPostPhys.17.3.069
TI  - Kondo breakdown in multi-orbital Anderson lattices induced by destructive hybridization interference
PY  - 2024/09/02
UR  - https://scipost.org/SciPostPhys.17.3.069
JF  - SciPost Physics
JA  - SciPost Phys.
VL  - 17
IS  - 3
SP  - 069
A1  - Eickhoff, Fabian
AU  - Anders, Frithjof
AB  - In this paper we consider a multi band extension to the periodic Anderson model. We use a single site DMFT(NRG) in order to study the impact of the conduction band mediated effective hopping of the correlated electrons between the correlated orbitals onto the heavy Fermi liquid formation. Whereas the hybridization of a single impurity model with two distinct conduction bands always adds up constructively, $T_{K}\propto \exp(-\mathrm{const}\, U/(\Gamma_1+\Gamma_2))$, we show that this does not have to be the case in lattice models, where, in remarkable contrast, also an low-energy Fermi liquid scale $T_0\propto \exp(-\mathrm{const}\, U/(\Gamma_1-\Gamma_2))$ can emerge due to quantum interference effects in multi band models, where $U$ denotes the local Coulomb matrix element of the correlated orbitals and $\Gamma_i$ the local hybridization strength of band $i$. At high symmetry points, heavy Fermi liquid formation is suppressed which is associated with a breakdown of the Kondo effect. This results in an asymptotically scale-invariant (i.e., power-law) spectrum of the correlated orbitals $\propto|\omega|^{1/3}$, indicating non-Fermi liquid properties of the quantum critical point, and a small Fermi surface including only the light quasi-particles. This orbital selective Mott phase demonstrates the possibility of metallic local criticality within the general framework of ordinary single site DMFT.
ER  -

@Article{10.21468/SciPostPhys.17.3.069,
	title={{Kondo breakdown in multi-orbital Anderson lattices induced by destructive hybridization interference}},
	author={Fabian Eickhoff and Frithjof B. Anders},
	journal={SciPost Phys.},
	volume={17},
	pages={069},
	year={2024},
	publisher={SciPost},
	doi={10.21468/SciPostPhys.17.3.069},
	url={https://scipost.org/10.21468/SciPostPhys.17.3.069},
}

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¹ Fabian Eickhoff,
² Frithjof Anders

Funders for the research work leading to this publication