Stability of the Néel quantum critical point in the presence of Dirac fermions
We investigate the stability of the Néel quantum critical point of two-dimensional quantum antiferromagnets, described by a non-linear \(\sigma\) model (NL\(\sigma\)M), in the presence of a Kondo coupling to \(N_f\) flavours of two-component Dirac fermion fields. The long-wavelength order parameter...
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| Published in | arXiv.org |
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| Main Authors | , , , |
| Format | Paper Journal Article |
| Language | English |
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| ISSN | 2331-8422 |
| DOI | 10.48550/arxiv.2210.06577 |
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| Abstract | We investigate the stability of the Néel quantum critical point of two-dimensional quantum antiferromagnets, described by a non-linear \(\sigma\) model (NL\(\sigma\)M), in the presence of a Kondo coupling to \(N_f\) flavours of two-component Dirac fermion fields. The long-wavelength order parameter fluctuations are subject to Landau damping by electronic particle-hole fluctuations. Using momentum-shell RG, we demonstrate that the Landau damping is weakly irrelevant at the Néel quantum critical point, despite the fact that the corresponding self-energy correction dominates over the quadratic gradient terms in the IR limit. In the ordered phase, the Landau damping increases under the RG, indicative of damped spin-wave excitations. Although the Kondo coupling is weakly relevant, sufficiently strong Landau damping renders the Néel quantum critical point quasi-stable for \(N_f\ge 4\) and thermodynamically stable for \(N_f<4\). In the latter case, we identify a new multi-critical point which describes the transition between the Néel critical and Kondo run-away regimes. The symmetry breaking at this fixed point results in the opening of a gap in the Dirac fermion spectrum. Approaching the multi-critical point from the disordered phase, the fermionic quasiparticle residue vanishes, giving rise to non-Fermi-liquid behavior. |
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| AbstractList | Phys. Rev. B 107, 085113 (2023) We investigate the stability of the Néel quantum critical point of
two-dimensional quantum antiferromagnets, described by a non-linear $\sigma$
model (NL$\sigma$M), in the presence of a Kondo coupling to $N_f$ flavours of
two-component Dirac fermion fields. The long-wavelength order parameter
fluctuations are subject to Landau damping by electronic particle-hole
fluctuations. Using momentum-shell RG, we demonstrate that the Landau damping
is weakly irrelevant at the Néel quantum critical point, despite the fact
that the corresponding self-energy correction dominates over the quadratic
gradient terms in the IR limit. In the ordered phase, the Landau damping
increases under the RG, indicative of damped spin-wave excitations. Although
the Kondo coupling is weakly relevant, sufficiently strong Landau damping
renders the Néel quantum critical point quasi-stable for $N_f\ge 4$ and
thermodynamically stable for $N_f<4$. In the latter case, we identify a new
multi-critical point which describes the transition between the Néel critical
and Kondo run-away regimes. The symmetry breaking at this fixed point results
in the opening of a gap in the Dirac fermion spectrum. Approaching the
multi-critical point from the disordered phase, the fermionic quasiparticle
residue vanishes, giving rise to non-Fermi-liquid behavior. We investigate the stability of the Néel quantum critical point of two-dimensional quantum antiferromagnets, described by a non-linear \(\sigma\) model (NL\(\sigma\)M), in the presence of a Kondo coupling to \(N_f\) flavours of two-component Dirac fermion fields. The long-wavelength order parameter fluctuations are subject to Landau damping by electronic particle-hole fluctuations. Using momentum-shell RG, we demonstrate that the Landau damping is weakly irrelevant at the Néel quantum critical point, despite the fact that the corresponding self-energy correction dominates over the quadratic gradient terms in the IR limit. In the ordered phase, the Landau damping increases under the RG, indicative of damped spin-wave excitations. Although the Kondo coupling is weakly relevant, sufficiently strong Landau damping renders the Néel quantum critical point quasi-stable for \(N_f\ge 4\) and thermodynamically stable for \(N_f<4\). In the latter case, we identify a new multi-critical point which describes the transition between the Néel critical and Kondo run-away regimes. The symmetry breaking at this fixed point results in the opening of a gap in the Dirac fermion spectrum. Approaching the multi-critical point from the disordered phase, the fermionic quasiparticle residue vanishes, giving rise to non-Fermi-liquid behavior. |
| Author | Uryszek, Mikolaj D Krüger, Frank Hu, Huanzhi Lin, Jennifer |
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| BackLink | https://doi.org/10.48550/arXiv.2210.06577$$DView paper in arXiv https://doi.org/10.1103/PhysRevB.107.085113$$DView published paper (Access to full text may be restricted) |
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| Snippet | We investigate the stability of the Néel quantum critical point of two-dimensional quantum antiferromagnets, described by a non-linear \(\sigma\) model... Phys. Rev. B 107, 085113 (2023) We investigate the stability of the Néel quantum critical point of two-dimensional quantum antiferromagnets, described by a... |
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| SubjectTerms | Antiferromagnetism Broken symmetry Conduction electrons Coupling Critical point Electron spin Elementary excitations Fermions Field theory Flavor (particle physics) Landau damping Order parameters Physics - Strongly Correlated Electrons Stability |
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| Title | Stability of the Néel quantum critical point in the presence of Dirac fermions |
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