Unifying Interacting Nodal Semimetals: A New Route to Strong Coupling

Abstract

We propose a general framework for constructing a large set of nodal-point semimetals by tuning the number of linearly (dL) and (at most) quadratically (dQ) dispersing directions. By virtue of such a unifying scheme, we identify a new perturbative route to access various strongly interacting non-Dirac semimetals with dQ>0. As a demonstrative example, we relate a two dimensional anisotropic semimetal with dL=dQ=1, describing the topological transition between a Dirac semimetal and a normal insulator, and its three dimensional counterparts with dL=1, dQ=2. We address the quantum critical phenomena and emergence of non-Fermi liquid states with unusual dynamical structures within the framework of an ε expansion, where ε=2-dQ, when these systems reside at the brink of charge- or spin-density-wave orderings, or an s-wave pairing. Our results can be germane to two-dimensional uniaxially strained optical honeymcomb lattice, α-(BEDT-TTF)2I3.