English

Experimental verification of the commutation relation for Pauli spin operators using single-photon quantum interference

Quantum Physics 2010-09-20 v2

Abstract

We report experimental verification of the commutation relation for Pauli spin operators using quantum interference of the single-photon polarization state. By superposing the quantum operations σzσx\sigma_z \sigma_x and σxσz\sigma_x \sigma_z on a single-photon polarization state, we have experimentally implemented the commutator, [σz,σx][\sigma_{z}, \sigma_{x}], and the anticommutator, {σz,σx}\{\sigma_{z}, \sigma_{x}\}, and have demonstrated the relative phase factor of π\pi between σzσx\sigma_z \sigma_x and σxσz\sigma_x \sigma_z operations. The experimental quantum operation corresponding to the commutator, [σz,σx]=kσy[\sigma_{z}, \sigma_{x}]=k\sigma_y, showed process fidelity of 0.94 compared to the ideal σy\sigma_y operation and k|k| is determined to be 2.12±0.182.12\pm0.18.

Cite

@article{arxiv.1002.3219,
  title  = {Experimental verification of the commutation relation for Pauli spin operators using single-photon quantum interference},
  author = {Yong-Su Kim and Hyang-Tag Lim and Young-Sik Ra and Yoon-Ho Kim},
  journal= {arXiv preprint arXiv:1002.3219},
  year   = {2010}
}

Comments

4pages, 3 figures

R2 v1 2026-06-21T14:47:48.364Z