Experimental Realization of Discrete Fourier Transformation on NMR   Quantum Computer

Liping Fu; Jun Luo; Li Xiao; Xizhi Zeng (Laboratory of Magnetic; Resonance; Atomic; Molecular Physics; Wuhan Institute of Physics and; Mathematics; The Chinese Academy of Sciences; Wuhan; People's Republic of; China)

arXiv:quant-ph/9905083·quant-ph·May 23, 2007·6 cites

Experimental Realization of Discrete Fourier Transformation on NMR Quantum Computer

Liping Fu, Jun Luo, Li Xiao, Xizhi Zeng (Laboratory of Magnetic, Resonance, Atomic, Molecular Physics, Wuhan Institute of Physics and, Mathematics, The Chinese Academy of Sciences, Wuhan, People's Republic of, China)

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TL;DR

This paper demonstrates the experimental implementation of the discrete Fourier transform on an NMR quantum computer, confirming theoretical predictions and showcasing the potential for applying DFT to quantum systems of various sizes.

Contribution

It presents a practical method to realize DFT on NMR quantum computers for any L-bit quantum number, bridging theory and experiment.

Findings

01

Experimental results match theoretical predictions.

02

DFT can be implemented on NMR quantum computers for any L-bit system.

03

Pulse sequences enable scalable DFT realization.

Abstract

We report experimental implementation of discrete Fourier transformation(DFT) on a nuclear magnetic resonance(NMR) quantum computer. Experimental results agree with theoretical results. Using the pulse sequences we introduced, DFT can be realized on any L-bit quantum number in principle.

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Taxonomy

TopicsQuantum Computing Algorithms and Architecture · Quantum Information and Cryptography · Quantum-Dot Cellular Automata