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Sheng-Jun Yang, Associate Researcher at the SUSTech Institute for Quantum Science and Engineering. Yang’s research interest is experimental atomic physics and quantum optics, special focus is on quantum memory, precision measurement of gravity and weak magnetism. Yang has published 13 peer-reviewed journal articles including Nat. Photonics (3), PRLs (6), and has received about 500 citations based on Google Scholar.

Research Interest 

quantum optics; Precision Measurement; atom interferometry; atom magnetometer; cold atoms

Education Background

2008.9–2015.7 PhD., Department of Modern Physics, University of Science and Technology of China

2004.9–2008.7 Bachelor, Department of Modern Physics, University of Science and Technology of China

Working Experience

2018.12–now Research associate, Shenzhen Institute for Quantum Science and Engineering, Southern University of Science and Technology

2015.9–2018.10 Post-doctor, Department of Modern Physics, University of Science and Technology of China

Papers

[1] Yuan, L., Wu, J., Yang, S.-J. (2023). Current Status and Prospects on High-Precision Quantum Tests of the Weak Equivalence Principle with Cold Atom Interferometry. Symmetry, 15, 1769.

[2] Duan, Z.-X., Wu, W.-T., Lin. Y.-T., Yang, S.-J. (2022). Simple and active magnetic-field stabilization for cold atom experiments. Review of Scientific Instruments, 93, 123201.

[3] Li, Z.-D., Mao, Y.-L., M. Weilenmann, A. Tavakoli, Chen H., Feng L.-X., Yang, S.-J., M.-O. Renou, D. Trillo, T. P. Le, N. Gisin, A. Acn, M. Navascus, Z. Wang, J. Fan (2022). Testing real quantum theory in an optical quantum network. Physical Review Letters, 128, 040402.

[4] Wang, X.-J., Yang, S.-J., Sun, P.-F., Jin, B., Li, J., Zhou, M.-T., Bao, X.-H., Pan, J.-W. (2021). Cavity-enhanced atom-photon entanglement with subsecond lifetime. Physical Review Letters, 126(9), 090501.

[5] Jing, B., Wang, X.-J., Yu, Y., Sun, P.-F., Jiang, Y., Yang, S.-J., Jiang, W.-H., Luo, X.-Y., Zhang, J., Jiang, X., Bao, X.-H., Pan, J.-W. (2019). Entanglement of three quantum memories via interference of three single photons. Nature Photonics, 13(13), 210 - 213.

[6] Long, J.-B., Yang, S.-J., Chen, S., & Pan, J.-W. (2018). Magnetic-enhanced modulation transfer spectroscopy and laser locking for 87Rb repump transition. Optics Express, 26(21), 27773–27786.

[7] Yang, S.-J., Rui, J., Dai, H.-N., Jin X.-M., Chen, S., & Pan, J.-W. (2018). High-contrast transparency comb of the electromagnetically-induced-transparency memory. Physical Review A, 98(3), 033802.

[8] Li, J., Zhou, M.-T., Jing, B., Wang, X.-J., Yang, S.-J., Jiang, X., M?lmer, Klaus, Bao, X.-H., & Pan, J.-W. (2016). Hong-Ou-Mandel interference between two deterministic collective excitations in an atomic ensemble. Physical Review Letters, 117(18), 180501.

[9] Yang, S.-J., Wang, X.-J., Bao, X.-H., & Pan, J.-W. (2016). An efficient quantum light–matter interface with sub-second lifetime. Nature Photonics, 10(6), 381–384.

[10] Rui, J., Jiang, Y., Yang, S.-J., Zhao, B., Bao, X.-H., & Pan, J.-W. (2015). Operating spin echo in the quantum regime for an atomic-ensemble quantum memory. Physical Review Letters, 115(13), 133002.

[11] Yang, S.-J., Wang, X.-J., Li, J., Rui, J., Bao, X.-H., & Pan, J.-W. (2015). Highly retrievable spin-wave–photon entanglement source. Physical Review Letters, 114(21), 210501.

[12] Yang, S.-J., Bao, X.-H., & Pan, J.-W. (2015). Modulation of single-photon-level wave packets with two-component electromagnetically induced transparency. Physical Review A, 91(5), 53805.

[13] Dai, H.-N., Zhang, H., Yang, S.-J., Zhao, T.-M., Rui, J., Deng, Y.-J.,Li, L., Liu, N.-L., Chen, S., Bao, X.-H., Jin, X.-M., Zhao, B., & Pan, J.-W. (2012). Holographic storage of biphoton entanglement. Phys. Rev. Lett. 108(21), 210501.

[14] Zhang, H., Jin, X.-M., Yang, J., Dai, H.-N., Yang, S.-J., Zhao, T.-M., Rui, J., He, Y., Jiang, X., Yang, F., Pan, G.-S., Yuan, Z.-S., Deng, Y.-J., Chen, Z.-B., Bao, X.-H., Chen, S., Zhao, B., & Pan, J.-W. (2011). Preparation and storage of frequency-uncorrelated entangled photons from cavity-enhanced spontaneous parametric down conversion. Nature Photonics, 5(10), 628–632.

Patents

[1] 一種適用于冷原子實(shí)驗(yàn)的前級(jí)原子預(yù)冷卻系統(tǒng)，陳斌、袁亮、楊勝軍、范靖云，中國(guó)發(fā)明專利，申請(qǐng)(專利) 號(hào)：2022105182552，申請(qǐng)日：2022-05-13，實(shí)質(zhì)審查階段。

[2] 單束光折返泵浦探測(cè)構(gòu)型的磁場(chǎng)測(cè)量方法以及原子磁力儀，張衛(wèi)東、徐曉天、楊勝軍、范靖云，中國(guó)發(fā)明專利，申請(qǐng)(專利) 號(hào)：2021112259888，申請(qǐng)日：2021-10-21，已授權(quán)。

[3] 一種磁場(chǎng)梯度測(cè)量方法以及原子磁力梯度儀系統(tǒng)，徐曉天、楊勝軍、范靖云，中國(guó)發(fā)明專利，申請(qǐng)(專利) 號(hào)：2021108428760，申請(qǐng)日：2021-07-23，實(shí)質(zhì)審查階段。

[4] 一種磁場(chǎng)測(cè)量方法及原子磁力儀系統(tǒng)，徐曉天、楊勝軍、陳斌、范靖云，中國(guó)發(fā)明專利，申請(qǐng)(專利) 號(hào)：2021105388314，申請(qǐng)日：2021-05-18，實(shí)質(zhì)審查階段。

[5] 適用于原子干涉重力儀的振動(dòng)噪聲修正補(bǔ)償方法，陳斌、楊勝軍、陳帥、潘建偉，中國(guó)發(fā)明專利，申請(qǐng)(專利) 號(hào)：2018114136842，申請(qǐng)日：2018-11-20，已授權(quán)。

[6] 一種三維主動(dòng)減振控制方法及系統(tǒng)，陳斌、楊勝軍、陳帥、潘建偉，中國(guó)發(fā)明專利，申請(qǐng)(專利) 號(hào)：2018111963148，申請(qǐng)日：2018-10-15，實(shí)質(zhì)審查階段。

[7] 一種用于原子干涉儀探頭的磁場(chǎng)系統(tǒng)，楊勝軍、謝宏泰、陳帥、潘建偉，中國(guó)發(fā)明專利，申請(qǐng)(專利) 號(hào)：2018101354552，申請(qǐng)日：2018-02-09，實(shí)質(zhì)審查階段。

[8] 一種原子布局?jǐn)?shù)探測(cè)系統(tǒng)，謝宏泰、楊勝軍、陳帥、潘建偉，中國(guó)發(fā)明專利，申請(qǐng)(專利) 號(hào)：2018100765035，申請(qǐng)日：2018-01-25，實(shí)質(zhì)審查階段。

[9] 一種適用于小型化原子干涉儀的真空結(jié)構(gòu)，陳帥、龍金寶、謝宏泰、楊勝軍、潘建偉，中國(guó)發(fā)明專利，申請(qǐng)(專利) 號(hào)：2017114391860，申請(qǐng)日：2017-12-25，已授權(quán)。

[10] 一種適用于冷原子干涉精密測(cè)量的雙激光器系統(tǒng)，龍金寶、楊勝軍、陳帥、潘建偉，中國(guó)發(fā)明專利，申請(qǐng)(專利) 號(hào)：2017114391447，申請(qǐng)日：2017-12-25，已授權(quán)。