Google Scholar: Jun-Yi Shan
Publications
14. Amogh Yogesh Waghmare, Joshua Bromley, Jun-Yi Shan and Eric Y. Ma, "Nonlinear Response of Microwave Impedance Microscopy," Appl. Phys. Lett. 126, 133505 (2025).
13. Xinwei Li, Iliya Esin, Youngjoon Han, Yincheng Liu, Hengdi Zhao, Honglie Ning, Cora Barrett, Jun-Yi Shan, Kyle Seyler, Gang Cao, Gil Refael and David Hsieh, "Time-hidden magnetic order in a multi-orbital Mott insulator," Nat. Phys. 21, 451 (2025).
12. Jun-Yi Shan, "Ultrafast giant enhancement of second harmonic generation through level occupation engineering," arXiv: 2412.02991.
11. Jun-Yi Shan, Nathaniel Morrison, and Eric Y. Ma, "Advanced Microwave Impedance Microscopy for Emerging Materials and Devices," in 2024 IEEE/MTT-S International Microwave Symposium-IMS 2024 (IEEE, 2024) pp. 994–997.
10. Jun-Yi Shan, Nathaniel Morrison, Su-Di Chen, Feng Wang, and Eric Y. Ma, "Johnson-noise-limited cancellation-free microwave impedance microscopy with monolithic silicon cantilever probes," Nat. Commun. 15, 5043 (2024).
9. Jun-Yi Shan, Jonathan B. Curtis, Chang Jae Roh, C. R. Rotundu, Young S. Lee, Prineha Narang, Tae Won Noh, Eugene Demler, and D. Hsieh, "Dynamic magnetic phase transition induced by parametric magnon pumping," Phys. Rev. B 109, 054302 (2024).
8. Jun-Yi Shan, Nathaniel Morrison, and Eric Y. Ma, "Circuit-level design principles for transmission-mode microwave impedance microscopy," Appl. Phys. Lett. 122, 123505 (2023).
7. Jun-Yi Shan, Adam Pierce, and Eric Y. Ma, "Universal signal scaling in microwave impedance microscopy," Appl. Phys. Lett. 121, 123507 (2022).
6. Jun-Yi Shan, "Non-Thermal Optical Engineering of Strongly-Correlated Quantum Materials," Caltech PhD thesis (2022). [Download]
5. Jun-Yi Shan, M. Ye, H. Chu, Sungmin Lee, Je-Geun Park, L. Balents, and D. Hsieh, "Giant modulation of optical nonlinearity by Floquet engineering," Nature 600, 235 (2021).
4. Jiawei Luo, Yanan Li, Jiawei Zhang, Haoran Ji, He Wang, Jun-Yi Shan, Canxun Zhang, Cong Cai, Jun Liu, Yong Wang, Yan Zhang, and Jian Wang, "Possible unconventional two-band superconductivity in MoTe2," Phys. Rev. B 102, 064502 (2020).
3. Jun-Yi Shan, A. de la Torre, N. J. Laurita, L. Zhao, C. D. Dashwood, D. Puggioni, C. X. Wang, K. Yamaura, Y. Shi, J. M. Rondinelli, and D. Hsieh, "Evidence for an extended fluctuation above the polar ordering transition in LiOsO3," Phys. Rev. Research 2, 033174 (2020).
2. N. J. Laurita, A. Ron, Jun-Yi Shan, D. Puggioni, N. Z. Koocher, K. Yamaura, Y. Shi, J. M. Rondinelli & D. Hsieh, "Evidence for the weakly coupled electron mechanism in an Anderson-Blount polar metal," Nat. Commun. 10, 3217 (2019).
1. Wei-Chao Jiang, Jun-Yi Shan, Qihuang Gong, and Liang-You Peng, "Virtual sequential picture for nonsequential two-photon double ionization of helium," Phys. Rev. Lett. 115, 153002 (2015).
Talks (all sorts of)
18. "Improving wave-based analog computing through quantum material platforms and optical control schemes," APS Global Physics Summit 2025, Anaheim, March 2025. Abstract can be found here.
17. "Non-thermal optical engineering of quantum material properties," University of California, Berkeley, April 2023. Abstract can be found here.
16. "Floquet engineering of quantum materials on demand," MRS Spring Meeting 2023, San Francisco, April 2023. Abstract can be found here.
15. "Magnon dynamics in a quantum Heisenberg antiferromagnet," APS March Meeting 2023, Las Vegas, March 2023. Abstract can be found here.
14. "Non-thermal optical engineering of strongly correlated quantum materials," APS March Meeting 2023, Las Vegas, March 2023. Abstract can be found here.
13. "Giant modulation of second harmonic generation in MnPS3 by Floquet engineering," APS March Meeting 2022, Chicago, March 2022. Abstract can be found here.
12. "Floquet engineering of quantum materials on demand," California Institute of Technology, January 2022. Abstract can be found here.
11. "Floquet engineering of quantum materials on demand," University of California, Berkeley, January 2022. Abstract can be found here.
10. "Floquet engineering of quantum materials on demand," Princeton University, December 2021. Abstract can be found here.
9. "Floquet engineering of the electronic states in MnPS3," APS virtual March Meeting, March 2021. Abstract can be found here.
8. "Symmetry and property of solids with nonlinear optical probe," Pasadena City College, October 2019.
7. "When we cannot find particles in the universe, we go to solids," Pasadena City College, March 2019.
6. "Subtle lattice distortions in the nonpolar phase of the polar metal LiOsO3," APS March Meeting 2019, Boston, March 2019. Abstract can be found here.
5. "Signature of an order-disorder transition in LiOsO3 from second harmonic optical anisotropy," APS March Meeting 2018, Los Angeles, March 2018. Abstract can be found here.
4. "Virtual Sequential Picture and Electron Correlation in Two-photon Double Ionization of He," CUHK-PKU Student Symposium for Physics 2016, The Chinese University of Hong Kong, May 2016.
3. "Virtual Sequential Picture and Electron Correlation in Two-photon Double Ionization of He," Xingcheng Academic Symposium for Undergraduate Researchers, Peking University, May 2016.
2. "Detecting Thermal Force Using Lasers," Seminar for UTRIP Researchers, University of Tokyo, August 2015.
1. "Direct Evidence of the Thinnest High Temperature Superconductor and Discovery of a New 2D Superconductor," International Conference for Physics Students 2014, Heidelberg University, August 2014.
Posters
1. Jun-Yi Shan, A. de la Torre, L. Zhao, C. Dashwood, Y. Shi and D. Hsieh, "Optical second harmonic anisotropy study of ferroelectric metal LiOsO3," The NSF/DOE quantum science summer school, Cornell University, June 2018.