Space-time tradeoff for sparse quantum state preparation

Abstract

In this work, we investigate the trade-off between the circuit depth and the number of ancillary qubits for preparing sparse quantum states. We prove that any n-qubit d-spare quantum state (i.e., it has only d non-zero amplitudes) can be prepared by a quantum circuit with depth O(nd mm m/n + nd) using m≥ 6n ancillary qubits, which achieves the current best trade-off between depth and ancilla number. In particular, when m = (nd d), our result recovers the optimal circuit depth ( nd) given in cite.zhang2022quantum[Phys. Rev. Lett., 129, 230504(2022)], but using significantly fewer gates and ancillary qubits.