Explicit Abelian Lifts and Quantum LDPC Codes
Abstract
For an abelian group H acting on the set [], an (H,)-lift of a graph G0 is a graph obtained by replacing each vertex by copies, and each edge by a matching corresponding to the action of an element of H. In this work, we show the following explicit constructions of expanders obtained via abelian lifts. For every (transitive) abelian group H ≤slant Sym(), constant degree d 3 and ε > 0, we construct explicit d-regular expander graphs G obtained from an (H,)-lift of a (suitable) base n-vertex expander G0 with the following parameters: (i) λ(G) 2d-1 + ε, for any lift size 2nδ where δ=δ(d,ε), (ii) λ(G) ε · d, for any lift size 2nδ0 for a fixed δ0 > 0, when d d0(ε), or (iii) λ(G) O(d), for lift size ``exactly'' = 2(n). As corollaries, we obtain explicit quantum lifted product codes of Panteleev and Kalachev of almost linear distance (and also in a wide range of parameters) and explicit classical quasi-cyclic LDPC codes with wide range of circulant sizes. Items (i) and (ii) above are obtained by extending the techniques of Mohanty, O'Donnell and Paredes [STOC 2020] for 2-lifts to much larger abelian lift sizes (as a byproduct simplifying their construction). This is done by providing a new encoding of special walks arising in the trace power method, carefully "compressing'" depth-first search traversals. Result (iii) is via a simpler proof of Agarwal et al. [SIAM J. Discrete Math 2019] at the expense of polylog factors in the expansion.
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