Publications
A. Journal Papers
32 peer-reviewed papers. Three of them are first-author or second-author papers published on Physics Review Letters, 12 of them are corresponding-author papers.
Y. C. Chen, S. C. Fang, and Y. H. Chen*, “Atomic Quantum Sensor for Ultralow-Frequency Electric Field Measurements,” arXiv:2402.01430.
C. C. Chang, Y. H. Chen, and G. Y. Chen*, "Electromagnetically Induced Transparency and Quantum Enhancement of Transmission via Dressed Bloch Photons in an Array of three-level Λ-type Atoms," Opt. Express 32(7), 11307 (2024).
C. E. Wu, T. Kirova#, M. Auzins, and Y. H. Chen*, “Rydberg-Rydberg Interaction Strengths and Dipole Blockade Radii in the Presence of Förster Resonances,” Opt. Express 31, 37094 (2023).
B. Kim, K. T. Chen, K. Y. Chen, Y. S. Chiu, C. Y. Hsu, Y. H. Chen, and I. A. Yu*, “Experimental Demonstration of Stationary Dark-State Polaritons Dressed by Dipole-Dipole Interaction,” Phys. Rev. Lett. 131, 133001 (2023).
J. Y. Liou, C. E. Wu, H. J. Su, and Y. H. Chen*, “Optimizing Population Accumulation in a Designated Single Zeeman State Using Microwave Spectroscopy,” Optics Continuum 2, 2017 (2023).
H. J. Su, J. Y. Liou, I. C. Lin, and Y. H. Chen*, “Optical pumping effects on the Rydberg EIT spectrum,” Journal of Applied Physics 132, 244401 (2022).
Y. C. Chen, S. C. Fang, H. H. Lin, J. W. Dong, and Y. H. Chen*, “Investigation of alkali vapor diffusion characteristics through microchannels,” Physics of Fluids 34, 072004 (2022).
C. C. Chang, Y. H. Chen, G. Y. Chen*, and L. Lin*, “Manipulating quantum interference of dressed photon fields,” Opt. Express 30, 18156 (2022).
J. M. Chen, C. Y. Hsu, W. K. Huang, S. S. Hsiao, F. C. Huang, Y. H. Chen, C. S. Chuu, Y. C. Chen, Y. F. Chen, and Ite A. Yu*, “Room-temperature biphoton source with a spectral brightness near the ultimate limit,” Phys. Rev. Research 4, 023132 (2022).
H. J. Su, J. Y. Liou, I. C. Lin, and Y. H. Chen*, “Optimizing the Rydberg EIT spectrum in a thermal vapor,” Opt. Express 30, 1499 (2022).
Y. H. Chen and Y. H. Chen*, “Numerical study of large cross-phase modulation with stationary light pulses,” J. Opt. Soc. Am. B 38, 1834 (2021).
K. F. Chang, T. P. Wang, C. Y. Chen, Y. H. Chen, Y. S. Wang, Y. F. Chen, Y. C. Chen, and I. A. Yu*, “Low-loss high-fidelity frequency beam splitter with tunable split ratio based on electromagnetically induced transparency,” Phys. Rev. Research 3, 013096 (2021).
C. Y. Hsu, Y. S. Wang, J. M. Chen, F. C. Huang, Y. T. Ke, E. K. Huang, W. Hung, K. L. Chao, S. S. Hsiao, Y. H. Chen, C. S. Chuu, Y. C. Chen, Y. F. Chen*, and I. A. Yu* “ Generation of sub-MHz and spectrally-bright biphotons from hot atomic vapors with a phase mismatch-free scheme,” Opt. Express 29, 4632 (2021).
G. Wang, Y. S. Wang, E. K. Huang, W. Hung, K. L. Chao, P. Y. Wu, Y. H. Chen*, and I. A. Yu, “Ultranarrow-bandwidth filter based on a thermal EIT medium”, Sci. Rep. 8, 7959 (2018).
Y. F. Hsiao, P. J. Tsai, H. S. Chen, S. X. Lin, C. C. Hung, C. H. Lee, Y. H. Chen, Y. F. Chen, I. A. Yu*, and Y. C. Chen#, “Highly Efficient Coherent Optical Memory Based on Electromagnetically Induced Transparency,” Phys. Rev. Lett. 120, 183602 (2018).
B. H. Wu, Y. W. Chuang, Y. H. Chen#, J. C. Yu, M. S. Chang, and I. A. Yu*, “Enhanced spectral profile in the study of Doppler-broadened Rydberg ensembles”, Sci. Rep. 7, 9726 (2017).
Z. Y. Liu, Y. H. Chen, Y. C. Chen, H. Y. Lo, P. J. Tsai, I. A. Yu*, Y. C. Chen, Y. F. Chen#, “Large Cross-Phase Modulations at the Few-Photon Level,” Phys. Rev. Lett. 117, 203601 (2016). (Editor's suggestion, Featured in Physics)
F. Ripka, Y. H. Chen#, R. Löw, T. Pfau*, “Rydberg polaritons in a thermal vapor,” Phys. Rev. A 93, 053429 (2016).
Y. H. Chen#, F. Ripka, R. Löw, T. Pfau*, “Pulsed Rydberg four-wave mixing with long dephasing times in a thermal vapor,” Appl. Phys. B (Special issue) 122:18 (2016).
C. K. Chiu, Y. H. Chen, Y. C. Chen, I. A. Yu, Y. C. Chen, and Y. F. Chen*, “Low-light-level four-wave mixing by quantum interference,” Phys.Rev. A 89, 023839 (2014).
Y. H. Chen#, M. J. Lee, I. C. Wang, and I. A. Yu*, “Fidelity of the electromagnetically-induced-transparency-based optical memory,” Phys. Rev. A 88, 023805 (2013 ).
W. M. Hsu, Y. H. Chen#, J. S. Wang, and I. A. Yu*, “Slow and stored light pulses in the presence of magnetic fields,” J. Opt. Soc. Am. B 30,2123 (2013).
Y. H. Chen, M. J. Lee, I. C. Wang, S. Du, Y. F. Chen, Y. C. Chen, and I. A. Yu*, “Coherent Optical Memory with High Storage Efficiency and Large Fractional Delay,” Phys. Rev.Lett. 110, 083601 (2013).
C. C. Lin, M. C. Wu, B. W. Shiau, Y. H. Chen, I. A. Yu, Y. F. Chen, and Y. C. Chen*, “Enhanced all-optical switching with double slow light pulses,” Phys. Rev. A 86, 063836 (2012).
M. J. Lee, Y. H. Chen, I. C. Wang, and I. A. Yu*, “EIT-based switching and XPM under the influence of four-wave mixing,” Opt. Express 20, 11057(2012).
Y. H. Chen, M. J. Lee, W. Hung, Y. C. Chen, Y. F Chen, and I. A. Yu*, “Demonstration of the Interaction between Two Stopped Light Pulses,” Phys. Rev. Lett. 108, 173603 (2012).
T. Peters, S. W. Su, Y. H. Chen, J. S. Wang, S. C. Gou, and I. A. Yu*, “Formation of stationary light in a medium of non-stationary atoms,” Phys.Rev. A 85, 023838 (2012).
S. W. Su, Y. H. Chen, S. C. Gou*, and I. A. Yu*, “An effective thermal-parametrization theory for the slow-light dynamics in a Doppler-broadened electromagnetically induced transparency medium,” J. Phys.B, 44, 165504 (2011).
S. W. Su, Y. H. Chen, S. C. Gou*, T. L. Horng, and I. A. Yu*, “Dynamics of slow light and light storage in a Doppler-broadened electromagnetically-induced-transparency medium: A numerical approach,” Phys. Rev. A 83, 013827 (2011).
T. Peters, Y. H. Chen, J. S. Wang, Y. W. Lin, and I. A. Yu*, “Observation of phase variation within stationary light pulses inside a cold atomic medium,” Opt. Lett. 35, 151 (2010).
T. Peters, Y. H. Chen, J. S. Wang, Y. W. Lin, and I. A. Yu*, “Optimizing the retrieval efficiency of stored light pulses,” Opt. Express 17, 6665 (2009).
H. W. Cho, Y. C. He, T. Peters, Y. H. Chen, H. C. Chen, S. C. Lin, Y. C. Lee, and I. A. Yu*, “Direct measurement of the atom number in a Bose condensate,” Opt. Express 15, 12114 (2007).