Quantum Simulations Based on Parameterized Circuit of an Antisymmetric Matrix
Abstract: Given an antisymmetric matrix $A$ or the unitary matrix $U_A = eA$-or an oracle whose answers can be used to infer information about $A$-in this paper we present a parameterized circuit framework that can be used to approximate a quantum circuit for $eA$. We design the circuit based on a uniform antisymmetric matrix with ${\pm 1}$ elements, which has an eigenbasis that is a phase-shifted version of the quantum Fourier transform, and its eigenspectrum can be constructed by using rotation $Z$ gates. Therefore, we show that it can be used to directly estimate $eA$ and its quantum circuit representation. Since the circuit is based on $O(n2)$ quantum gates, which form the eigendecomposition of $eA$ with separate building blocks, it can also be used to approximate the eigenvalues of $A$.
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