Quantum Max-Cut is NP hard to approximate
Abstract
We unconditionally prove that it is NP-hard to compute a constant multiplicative approximation to the QUANTUM MAX-CUT problem on an unweighted graph of constant bounded degree. The proof works in two stages: first we demonstrate a generic reduction to computing the optimal value of a quantum problem, from the optimal value over product states. Then we prove an approximation preserving reduction from MAX-CUT to PRODUCT-QMC the product state version of QUANTUM MAX-CUT. More precisely, in the second part, we construct a PTAS reduction from MAX-CUTk (the rank-k constrained version of MAX-CUT) to MAX-CUTk+1, where MAX-CUT and PRODUCT-QMC coincide with MAX-CUT1 and MAX-CUT3 respectively. We thus prove that Max-Cutk is APX-complete for all constant k.
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