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Paper detail

Soluble Fermionic Quantum Critical Point in Two Dimensions

We study a model for a quantum critical point in two spatial dimensions between a semimetallic phase, characterized by a stable quadratic Fermi node, and an ordered phase, in which the spectrum develops a band gap. The quantum critical behavior can be computed exactly, and we explicitly derive the scaling laws of various observables. While the order-parameter correlation function at criticality satisfies the usual power law with anomalous exponent $η_ϕ= 2$, the correlation length and the expectation value of the order parameter exhibit essential singularities upon approaching the quantum critical point from the insulating side, akin to the Berezinskii-Kosterlitz-Thouless transition. The susceptibility, on the other hand, has a power-law divergence with non-mean-field exponent $γ= 2$. On the semimetallic side, the correlation length remains infinite, leading to an emergent scale invariance throughout this phase.

preprint2020arXivOpen access
Shouryya RayMatthias VojtaLukas Janssen
cond-mat.mes-hallcond-mat.str-elhep-th
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Shouryya RayMatthias VojtaLukas Janssen

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