Publication List
Unpublished
1. D.-K. Chai#, J.-B.
Zheng#, Z. Wang✉, G.-J. Chen, Y. Zhang, C.-H. Dong, C.-L. Zou✉, G.-C. Guo, M. Ye, G.-W. Lin, X.-M. Lin✉, “A compact magnetic-free optical isolator,”
Submitted (2025).
2. S. Wan#, P.-Y. Wang#,
M. Li#, R. Ma, R. Niu, F.-W. Sun, F. Bo✉, G.-C. Guo, C.-H. Dong✉, “Self-locked broadband
Raman-electro-optic microcomb,” Submitted (2024).
3. Y.-L. Zhang#, M. Li#,
X.-B. Xu, C.-H. Dong, G.-C. Guo, Z.-L. Xiang*, C.-L. Zou*, and X.-B. Zou*,
“Cooperative quantum interface for noise mitigation in quantum networks,”
Submitted (2024).
4. J.-Z. Zhang#,
X.-B. Xu#, Y. Gong#, Z.-B. Wang, X.-Z. Qi, X.-J. Liu, Y.-H.
Yang, Z.-H. Tian, J.-Q. Wang, Y.-L. Zhang, M. Li, Y.-X. Guo, Y. Yan, C.-H. Dong, X.-F. Ren, Y. Zhang, C.
Zhang, G.-C. Guo, Y. Che✉, and C.-L. Zou✉, “Optically-driven organic nano-step
actuator for reconfigurable photonic circuits,” Submitted (2024).
5. Jia-Qi Wang, et al “Compact and high-resolution spectrometer via Brillouin integrated circuits,” Submitted (2024).
6. P.-Y. Wang#, S. Wan#*,
M. Zhang#, R. Ma, F. Bo✉, Z. Shen, W. Wan, F.-W. Sun, G.-C. Guo, and C.-H. Dong✉, “Dynamic control of non-Hermitian on-site
potential in the lithium niobate microresonator,”
Submitted (2024).
7. G.-T. Xu#, Z. Shen#,
M. Zhang#, Y. Wang, S. Wan, Y. Yang, T. Zhang, L. Bi, F.-W. Sun,
G.-C. Guo and C.-H. Dong✉, “Kerr-induced synchronization of a
broadband magnon-phonon hybrid frequency comb,” Submitted (2025).
Published
News & Views
Ø
Z. Shen, C.-H. Dong*, “Femtosecond laser writes broadband
miniaturized isolator,” Nature Photonics 19, 224 (2025).
Ø
C.-H. Dong, “基于片上铌酸锂微腔的非线性新途径:
环腔内自发准相位匹,” Sci Sin-Phys Mech Astron 54, 224231
(2024).
Ø
C. H. Dong*, “Phase-controlled quantum optomechanics,” Sci. China-Phys. Mech. Astron. 66, 230332 (2023).
Ø
C. H. Dong*, “Phase-space tailoring for
deterministic and in-situ regulation of photon transport,” Sci. China-Phys.
Mech. Astron. 65, 254231 (2022).
Ø
Z. Shen, C.-H. Dong*, “Phonon counting boosts hybrid quantum
networks based on optomechanics,” SCIENCE CHINA:
Physics, Mechanics & Astronomy 62, 010331 (2019).
Book Chapters & Reviews
Ø J. Liu*, F. Bo*, L. Chang*, C.-H.
Dong*, X. Ou*, B. Regan*, X. Shen*, Q. Song*, B.
Yao*, W. Zhang*, C. Zou*, and Y.-F. Xiao*, “Emerging Material Platforms for
Integrated Microcavity Photonics,” Sci. China-Phys. Mech. Astron. 65, 104201 (2022).
Ø 汪昱, 舒方杰*, 沈镇, 柴诚哲, 张延磊, 董春华, 邹长铃, “基于回音壁微腔的非互易光子器件,” 《科学通报》67, doi: 10.1360/TB-2022-0118 (2022).
Ø Chapter: “Non-reciprocity in Optomechanical Resonators,” Z. Shen, Y.
Chen, C.-L. Zou and C.-H. Dong*, https://doi.org/10.1142/9789814566070_0004.
Ø C.-H. Dong,
Y.-D. Wang, and H.-L. Wang, "Optomechanical
Interfaces for Hybrid Quantum Networks," National Science Review 2, 510 (2015).
Ø C.-L.
Zou, C.-H. Dong, Y.
Yang, X.-W. Wu, F.-W. Sun, Z.-F. Han, and G.-C. Guo. "Whispering-Gallery mode optical Microresonator:
Fundamentals and Applications (Invited Review, in Chinese)," Sci
Sin-Phys Mech Astron 42, 1155 (2012).
Research Papers
2025
159. R. Ye#, G. Li#*,
S. Wan#, X. Xue#, P. Wang#,
X. Qiao, H. Li, S. Liu, J. Wang, R. Ma, F. Bo, Y.
Zheng*, C.-H. Dong✉, L. Yuan✉, and X. Chen✉, “Construction of various time-varying
Hamiltonians on thin-film lithium niobate chip,” Accepted by Phys. Rev. Lett. (2025).
158. Z.-B. Wang#, Y.-L.
Zhang#, X.-X. Hu, G.-J. Chen, M. Li, P.-F. Yang, X.-B. Zou, P.-F.
Zhang✉, C.-H. Dong✉, G. Li✉, T.-C. Zhang, G.-C. Guo, C.-L. Zou✉, “Self-induced optical
non-reciprocity,” Light: Science & Applications 14, 23 (2025). see also arXiv:2210.07038
157. J. Cai#, S. Wan#, B. Chen#, J. Li#, X. Wang, D. Sui, P. Wang, Z. Qu, X. Ke, Y. Zhu, Y. Chen, W. Xu, A. Yi, J. Zhang, C. Wang✉, C.-H. Dong✉, and X. Ou✉, “Stable Soliton Microcomb Generation in Lithium Tantalate via Thermal-Assisted Photorefractive Suppression,” Accepted by Photonics Research (2025).
156. H.-Y. Qiao,
S. Wan, G.-T. Xu, Z. Shen, G.-C. Guo, S.-M. Hu✉, and C.-H.
Dong✉, “Optical isolator in the
ferromagnetic microsphere coupled integrated Si3N4
waveguide,” Accepted by Chinese Optics Letters (2025).
155. J.-Z. Zhang, Y. Zeng, Q. Qin,
Y.-H. Yang, Z.-H. Tian, J.-Q. Wang, C.-H.
Dong, X.-B. Xu, M.-Y. Ye, G.-C. Guo, and C.-L. Zou, “On-chip 7 GHz
acousto-optic modulators for visible wavelengths,” Optics Express 33, 5562-5576 (2025).
154. B. Xu#, X. Xiong#, R. Niu, G. Qu, C. Dong, G.-C. Guo, and X. Ren✉, “Giant enhancement of second harmonic generation from microcavity integrated monolayer WS2,” Accepted by Chinese Optics Letters (2025).
2024
153. Y. Wang#, M. Zhang#,
Z. Shen✉, G.-T. Xu, R. Niu,
F.-W. Sun, G.-C. Guo, and C.-H. Dong✉, “Optomechanical frequency comb based on multiple
nonlinear dynamics,” Phys. Rev. Lett. 132,
163603 (2024).
152. R. Niu#,
S. Wan#, T.-P. Hua#, W.-Q. Wang#, Z.-Y. Wang#,
J. Li, Z.-B. Wang, M. Li, Z. Shen, Y. R. Sun, S.-M. Hu, B. E. Little, S. T.
Chu, W. Zhao, G.-C. Guo, C.-L. Zou✉, Y.-F. Xiao✉, W.-F. Zhang✉, and C.-H.
Dong✉, “Atom-referenced and stabilized
soliton microcomb,” Sci. China: Physics, Mechanics
& Astronomy 67, 224262 (2024). 封面故事, Editor’s
Focus
151. Y. Wang#,
Y.-L. Zhang#, Z. Shen✉, H.-Y. Kuang,
C.-L. Zou, H. Jing, Y.-F. Xiao, G.-C. Guo, and C.-H. Dong✉, “Correlation measurement of
few-phonon interference,” Phys. Rev. A 109,
033523 (2024).
150. R. Niu#,
T.-P. Hua#, Z. Shen#, Y. Wang, S. Wan, Y. R. Sun,
W.-Q. Wang, W. Zhao, G.-C. Guo, W.-F. Zhang✉, W. Liu, S.-M. Hu✉, and C.-H.
Dong✉, “Ultralow-noise K-band soliton
microwave oscillator using optical frequency division,” ACS Photonics 11, 1412 (2024).
149. P.-Y. Wang#, S.
Wan#, R. Ma, W. Li, F. Bo✉, G.-C. Guo, and C.-H. Dong✉, “Octave soliton microcombs in
lithium niobate microresonators,”
Optics Letters 49, 1729 (2024).
148. B. Chen#, Y. Zhou#,
Y. Liu#, C. Ye#, Q. Cao#, P. Huang, C. Kim, Y.
Zheng, L. Oxenløwe, K. Yvind,
J. Li, J. Li, Y. Zhang, C.-H. Dong,
S. Fu, Q. Zhan✉, X. Wang✉, M. Pu✉ and J. Liu✉, “Integrated Optical Vortex Microcomb,” Nature
Photonics 18, 625 (2024).
147. Y.-L. Zhang#, M. Li#, X.-B. Xu, Z.-B. Wang, C.-H. Dong, G.-C. Guo, C.-L.
Zou*, X.-B. Zou*, “Integrated photonic nonreciprocal devices based on
susceptibility-programmable medium,” Laser & Photonics Reviews 2401366 (2024).
146. G.-J. Chen#, D.
Zhao#, Z.-B. Wang#, Z. Li, J.-Z. Zhang, L. Chen, Y.-L.
Zhang, X.-B. Xu, A.-P. Liu, C.-H. Dong*, G.-C. Guo, K. Huang*, and C.-L. Zou*, “Multifunctional metalens
for trapping and characterizing single atoms,” Laser & Photonics Reviews 2401595 (2024).
145. Y.-X. Chen#, Y.
Wang#, Z. Shen✉, M. Zhang, J. Li, G.-C. Guo, W.
Liu, and C.-H. Dong✉, “Self-Injection Locking for Low Phase Noise
Phonon Laser,” ACS Photonics 11,
4144 (2024).
144. J.-C. Cai#, P.-Y.
Wang#, J. Li, B.-W. Chen, L. Zhou, X. Ke,
B. Yang, A. Yi, J. Zhang, C.-H. Dong,
S. Wan✉, X. Ou✉, “High-Q Integrated Lithium Tantalate Microring Resonators
for On-Chip Comb Generation,” Optics Letters 49, 5921 (2024).
143. C. Jiang, Y. Xuan, S. Wan, B.
Liu, X. Hu*, C. Dong, Q. Yang*, Y.
Pan*, “Frequency-locked Si3N4 microring
for Doppler frequency shift detection,” Optics Express 32, 42445 (2024).
142. H.-Y.
Qiao, G.-T. Xu, Z. Shen✉, Y. Wang, G.-C. Guo,
S.-M. Hu✉ and C.-H. Dong, “Optical measurement and
feedback control of a ferromagnetic mechanical resonator,” Appl. Phys. Lett. 125, 121106 (2024).
141. G.-J. Chen#, J.-J.
Wang#, Z.-B. Wang, D. Zhao, Y.-L. Zhang, A.-P. Liu, C.-H. Dong, K. Huang*, G.-C. Guo, and
C.-L. Zou*, “Standing-wave atom tweezer,” Optics Express 32, 39039 (2024).
140. G.-J. Chen, J.-J. Wang, Y.-N.
Lv, H.-J. Fan, Z.-B. Wang, G. Li, C.-H. Dong, Y.-L. Zhang✉, G.-C. Guo, and C.-L. Zou✉, “Fluorescence collection efficiency of
atoms in dipole traps,” Optics Letters 49,
5011-5014 (2024).
139. Y. Wang, J. Lu, R. Niu, C.-L. Zou, C.-H.
Dong, X. Yang, Q. Xuan, and H.-L. Ren✉, “Hybrid WDM/MDM (De) multiplexer based on
Fabry-Perot resonators with Bragg grating reflectors,” J. Opt. Soc. Am. B 41, 1882 (2024).
138. G.-J. Chen, Z.-B. Wang, C.
Gu, D. Zhao, J.-Z. Zhang, Y.-L. Zhang, C.-H.
Dong, K. Huang✉, G.-C. Guo, and C.-L. Zou✉, “Enhancing single-atom loading in tightly
confined dipole traps with ancillary dipole beam,” Phys. Rev. A 109, 043105 (2024). see also
arXiv:2403.03068
137. R. Niu,
S. Wan, S.-M. Sun, T.-G. Ma, H.-J. Chen, W.-Q. Wang, Z. Lu, W.-F. Zhang, C.-L.
Zou✉, G.-C. Guo and C.-H. Dong✉, “Repetition rate tuning and locking of
soliton in microrod resonator,” Optics Letters 49, 570 (2024).
136. M. Li, X.-X. Xue, Y.-L. Zhang, X.-B. Xu, C.-H. Dong✉, G.-C. Guo, and C.-L. Zou✉, “Break the conversion efficiency limitation
of dissipative Kerr solitons using nonlinear couplers,” Sci. China: Physics, Mechanics & Astronomy 67, 234211 (2024). Arxiv:2203.08453
135. Z.-Y. Wang, H.-L. Ren✉, H.-Y. Qiao, R. Niu, G.-C. Guo, and C.-H.
Dong✉, “Compensation of the thermal
effect in a mounted microbubble resonator,” IEEE Photonics Journal 16, 5800105 (2024).
134. H.-L. Ren✉, Y. Li, M. Li, M. Gao, J. Lu, C.-L. Zou, C.-H. Dong, P. Yu, X. Yang, Q. Xuan, “Photonic time-delayed reservoir computing based
on series-coupled microring resonators with high memory capacity,” Optics Express 37, 11202
(2024).
133. Y. Wang, J. Lu, Y. Zhu, C.-L.
Zou, C.-H. Dong, X. Yang, Q. Xuan,
H. Ren, “Multimode sensing in a whispering gallery mode resonator enabled by
transfer machine learning,” IEEE Sensors Journal 24, 11843 (2024).
132. Y.-H. Yang#,
J.-Q. Wang#, Z.-X. Zhu, X.-B. Xu✉, Q. Zhang, J. Lu, Y. Zeng, C.-H. Dong, L. Sun, G.-C. Guo, and
C.-L. Zou✉, “Stimulated Brillouin interaction
between guided phonons and photons in a Lithium Niobate waveguide,” SCIENCE CHINA: Physics, Mechanics & Astronomy 67,
214221 (2024).
131. J.-B. Zheng, D.-K. Chai, Z.-B. Wang✉, G.-J. Chen, Y.-D. Hu, L. Chen, H.-J. Fan, Y.-L. Zhang, C.-H. Dong, C.-L. Zou✉, G.-C. Guo, M.-Y. Ye, G.-W. Lin✉, X.-M. Lin, “Magnetic-free polarization rotation in an atomic vapor cell,” Optics Express 32, 313 (2024).
2023
130. R. Niu#, M. Li#, S. Wan, Y. R. Sun, S.-M. Hu, C.-L. Zou*, G.-C. Guo, and C.-H. Dong*, “kHz-precision wavemeter based on reconfigurable microsoliton,” Nature Communications 14, 169 (2023).
129. Z.
Shen#, Y.-L. Zhang#, Y. Chen, Y.-F. Xiao, C.-L. Zou,
G.-C. Guo, and C.-H. Dong*,
“Nonreciprocal frequency conversion and mode routing in a microresonator,”
Phys. Rev. Lett. 130, 013601 (2023).
128. G.-T.
Xu#, M.
Zhang#, Y.
Wang, Z. Shen✉, G.-C.
Guo, C.-H. Dong✉, “Magnonic
frequency comb in the magnomechanical resonator,”
Phys. Rev. Lett. 131, 243601 (2023).
arXiv:2306.07985
127. S. Wan#, P.-Y.
Wang#, R. Ma, Z.-Y. Wang, R. Niu, D.-Y.
He, G.-C. Guo, F. Bo✉, J. Liu, C.-H. Dong✉, “Photorefraction-assisted self-emergence of dissipative Kerr solitons,” Laser & Photonics Reviews
2300627 (2023). arXiv:2305.02590
126. J. Li#, S. Wan#,
Y. Wang, R. Niu, M. Li, Z. Shen, G.-C. Guo, C.-H. Dong*, “Synchronization of
optomechanical oscillator and breathing soliton,” Laser & Photonics
Reviews 2200496 (2023).
125. G.-T. Xu, Y. Wang, M. Zhang,
Z. Shen✉, X.-F. Ren, G.-C. Guo and C.-H. Dong✉, “Long-lifetime coherent storage for
microwave photons in the magnomechanical resonator,”
Quantum Frontiers 2, 18 (2023).
124. Y. Wang#, Z.-P. Shi#, H.-Y. Kuang, X. Xi, S. Wan, Z. Shen✉, P.-Y. Wang, G.-Ting. Xu, X. Sun, C.-L. Zou, G.-C. Guo, C.-H. Dong✉, “Realization of quantum ground state in an optomechanical crystal cavity,” SCIENCE CHINA: Physics, Mechanics & Astronomy 66, 124213 (2023).
123. R. Niu#, S. Wan#,
W. Li, P.-Y. Wang, F.-W. Sun, F. Bo✉, J.
Liu, G.-C. Guo, and C.-H. Dong✉, “An integrated wavemeter based on
fully-stabilized resonant electro-optic frequency comb,” Communications Physics
6, 329 (2023).
122. G.-T. Xu, M. Zhang, Z.-Y.
Wang, Y. Wang, Y.-X. Liu, Z. Shen*, G.-C. Guo and C.-H. Dong*, “Ringing spectroscopy in the magnomechanical
system,” Fundamental Research 3, 45-49
(2023).
121. G.-T. Xu, Z. Shen*, Y. Wang,
C.-Z. Chai, G.-C. Guo, and C.-H. Dong,
“Optomechanical Magnetometry on a Bubble Resonator with YIG Microsphere,” IEEE Photonics Technique Letters 35, 393 (2023).
120. M. Li, Y.-L. Zhang, X.-B. Xu,
C.-H. Dong, G.-C. Guo, and C.-L. Zou✉, “Multicolor Continuous-Variable
Quantum Entanglement in the Kerr Frequency Comb,” Adv. Quantum Technol. 2300158
(2023). see also arXiv:2101.07734
119. Y. Zhu, H. Su, P. Xu, Y. Xu, Y. Wang, C.-H. Dong, J. Lu, Z. Le, X. Yang, Q. Xuan, C.-L. Zou, and H. Ren✉, “Data Augmentation Using Continuous
Conditional Generative Adversarial Networks for Regression and Its Application
to Improved Spectral Sensing,” Optics Express 31, 37722-37739 (2023).
118. Z.-Y. Wang, P.-Y. Wang, S.
Wan, Z. Wang, Q. Song, G.-C. Guo, and C.-H.
Dong*, “Thermal Oscillation in the hybrid 𝑆𝑖3𝑁4 − 𝑇𝑖𝑂2 Microring,” Optics
Express 31, 4569-4579 (2023).
117. C. Zhang#, J. Wang#, G. Kang, J. Gao, Z. Qu, S. Wan, C. Dong, Y. Pan, and J. Qu, “Soliton microcomb assisted microring photonic thermometer with ultra-high resolution and broad range,” Photonics Research 11, A44-A53 (2023) (2023).
116. J. Wang#, C. Zhang#,
J. Gao, S. Wan, C. Dong, Y. Shen, Y.
Pan, Q. Han, K. Zhou, and J. Qu, “High-Resolution Photonic Temperature
Measurement System Based on Frequency Locking of Microring
Resonator,” IEEE Transactions on Instrumentation and Measurement 72, 7007005 (2023).
115. Y.-H. Yang#, X.-B.
Xu#, J.-Q. Wang, M. Zhang, M. Li*, Z.-X. Zhu, Z.-B. Wang, C.-H. Dong, W. Fang, H. Yu*, G.-C.
Guo, and C.-L. Zou*, “Nonlinear Optical Radiation of a Lithium
Niobate Microcavity,” Phys. Rev. Applied 19,
034087 (2023). Arxiv:2204.07926
114. Z.-B. Wang, C.-Y. Gu,
X.-X. Hu, Y.-T. Zhang, J.-Z. Zhang, G. Li, X.-D. He, X.-B. Zou, C.-H. Dong, G.-C. Guo, and C.-L. Zou*, “Controllable
atomic collision in a tight optical dipole trap,” Optics Letters 48, 1064 (2023).
113. H. Chen, Z.-Y. Wang, Y. Wang, C. Yu, R. Niu,
C.-L. Zou, J. Lu, C.-H. Dong, H.
Ren*, “Machine
Learning-Assisted High-accuracy and Large Dynamic Range Thermometer in High-Q
Microbubble Resonators,” Optics Express 31, 16781 (2023).
2022
112. Z. Shen#, G.-T. Xu#, M. Zhang#, Y.-L. Zhang, Y. Wang, C.-Z. Chai, C.-L. Zou, G.-C. Guo, and C.-H. Dong*, “Coherent coupling between phonons, magnons and photons,” Phys. Rev. Lett. 129, 243601 (2022).
111. J. Li#, Z.-H. Zhou#, S. Wan#, Y.-L. Zhang, Z. Shen, M. Li*, C.-L. Zou, G.-C. Guo, and C.-H. Dong*, “All-optical synchronization of remote optomechanical systems,” Phys. Rev. Lett. 129, 063605 (2022).
110. C. Wang#, J. Li#, A. Yi#, Z. Fang#, L. Zhou, Z. Wang, R. Niu, Y. Chen, J. Zhang, Y. Cheng, J. Liu*, C.-H. Dong*, and X. Ou*, “Soliton Formation and Spectral Translation into Visible in CMOS-Compatible 4H-Silicon-Carbide-on-Insulator Platform,” Light: Science & Applications 11, 341 (2022).
109. C.-Z. Chai#, Z. Shen#, Y.-L. Zhang, H.-Q. Zhao, G.-C. Guo, C.-L. Zou and C.-H. Dong*, “Single-sideband microwave-to-optical conversion in high-Q ferrimagnetic microspheres,” Photonics Research 10, 820 (2022). selected as the "Editors' Pick".
108. X. Xi, C.-L. Zou, C.-H. Dong*, X. Sun*, “Highly tunable broadband coherent wavelength conversion with a
fiber-based optomechanical system,” Advanced Photonics 4(5),
56003 (2022).
107. J.-Q. Wang#, Y.-H. Yang#, M. Li*, H. Zhou, X.-B. Xu, J.-Z. Zhang, C.-H. Dong, G.-C. Guo, and C.-L. Zou*, “Synthetic five-wave mixing in an integrated microcavity for visible-telecom entanglement generation,” Nature Communications 13, 6223 (2022). arxiv:2204.00992
106. M. Li, Y.-L. Zhang, S.-H. Wu, C.-H. Dong, X.-B. Zou, G.-C. Guo, and C.-L. Zou, “Single-mode
photon blockade enhanced by bi-tone drive,” Phys. Rev. Lett. 129, 043601 (2022).
105. J. Li#, S. Wan#,
J.-L. Peng, Z.-Y. Wang, R. Niu, C.-L. Zou, G.-C. Guo
and C.-H. Dong*, “Thermal tuning of mode
crossing and the perfect soliton crystal in a Si₃N₄ microresonator,” Optics Express 30, 13690-13698 (2022).
104. X. Lin, W. Zhou, Y. Liu, F.-J. Shu, C.-L. Zou, C.-H. Dong, C. Wei, H. Dong, C. Zhang, J. Yao, Y.-S. Zhao, “3D-Printed Möbius Microring Lasers: Topology Engineering in Photonic Microstructures,” Small 2202812 (2022).
103. Z.-Y. Wang, P.-Y. Wang, M. Li, S. Wan*, G.-C. Guo, and C.-H. Dong*, “Numerical characterization of soliton microcomb in an athermal hybrid Si3N4−TiO2 microring,” Applied optics 61, 4329 (2022).
102. S. Wan, R. Niu, J. L. Peng, J. Li, G.-C. Guo, C.-L. Zou and C.-H. Dong*, “Fabrication of the High Q Si3N4 Microresonators for Soliton Microcombs,” Chinese Optics Letters 20, 032201 (2022).
101. B. Jiang, S. Zhu, W. Wang, J. Li, C.-H. Dong, L. Shi* and X. Zhang, “Room-temperature continuous-wave upconversion white microlaser using a rare-earth doped microcavity,” ACS photonics 9, 2956 (2022).
100. B.-Y. Xu, L.-K. Chen, J. Lin, L.-T. Feng, R. Niu, Z.-Y. Zhou, R.-H. Gao, C.-H. Dong, G.-C. Guo, Q. Gong, Y. Cheng, Y.-F. Xiao and X.-F. Ren, “Spectrally multiplexed and bright entangled photon pairs in a lithium niobate microresonator,” SCIENCE CHINA: Physics, Mechanics & Astronomy 65, 294262 (2022).
99. 李锦, 王丕屿, 王正瑜, 牛睿, 万帅*, 郭光灿, 董春华, “氮化硅微腔光学频率梳研究,” 《红外与激光工程》51(5), 20220302 (2022).
98. X.-B. Xu, J.-Q.Wang, Y.-H. Yang, W. Wang, Y.-L. Zhang, B.-Z. Wang, C.-H. Dong, L. Sun, G.-C. Guo, and C.-L. Zou*, “High Frequency Traveling Wave Phononic Cavity with Sub-micro Wavelength,” Applied Physics Letters 120, 163503 (2022).
97. L. Chen, C.-J. Huang, X.-B.
Xu, Y.-C. Zhang, D.-Q. Ma, Z.-T. Lu, Z.-B. Wang, G.-J. Chen, J.-Z. Zhang, H. X.
Tang, C.-H. Dong, W. Liu, G.-Y. Xiang,
G.-C. Guo, and C.-L. Zou*, “Planar-integrated magneto-optical trap,” Phys. Rev.
Applied 17, 034031 (2022).
96. C. Zhang, G.-G. Kang, J, Wang, S. Wan, C.-H. Dong, Y.-J. Pan, and J.-F. Qu, “Photonic thermometer by silicon nitride microring resonator with milli-kelvin self-heating effect,” Measurement 188, 110494 (2022).
95. J. Yu, Z. Shen, Z. Yang, S. Qi, Y. Jiang, G. Brambilla, C.-H. Dong and P. Wang, “The investigation of forward and backward Brillouin scattering in high-Q chalcogenide microspheres,” IEEE Photonics Journal 14, 3011505 (2022).
2021
94. Z. Shen, Y.-L. Zhang, C.-L. Zou, G.-C. Guo, and C.-H. Dong*, “Dissipatively Controlled Optomechanical Interaction via Cascaded Photon-Phonon Coupling,” Phys. Rev. Lett. 126, 163604 (2021).
93. Y. Chen#, Y.-L. Zhang#, Z. Shen#, C.-L. Zou*, G.-C. Guo, and C.-H. Dong*, “Synthetic gauge field in a single optomechanical resonator,” Phys. Rev. Lett. 126, 123603 (2021). see also arXiv:1908.04456.
92. X. Xi, J. Ma, Z.-H. Zhou, X.-X. Hu, Y. Chen, C.-L. Zou*, C.-H. Dong*, and X. Sun*, “Experimental investigation of the angular symmetry of optical force in a solid dielectric,” Optica 8, 1435-1441 (2021). preprint arXiv:2004.09828.
91. Xin-Xin Hu#, Zhu-Bo Wang#, Pengfei Zhang*, Guang-Jie Chen, Yan-Lei Zhang, Gang Li, Xu-Bo Zou, Tiancai Zhang, Hong X. Tang, Chun-Hua Dong*, Guang-Can Guo, Chang-Ling Zou*, “Noiseless photonic non-reciprocity via optically-induced magnetization,” Nature Communications 12, 2389 (2021). see also arXiv:2009.09819.
90. R. Niu, S. Wan, Z.-Y. Wang, J. Li, W. Wang, W. Zhang, G.-C. Guo, C.-L. Zou and C.-H. Dong*, “Perfect soliton crystals in the high-Q microrod resonator,” IEEE Photonics Technology Letters 33, 788 (2021). 10.1109/LPT.2021.3096645
89. R. Niu, S. Wan, J. Li, R.-C. Zhao, C.-L. Zou, G.-C. Guo, and C.-H. Dong*, “Fast spectroscopy based on a modulated soliton microcomb,” IEEE Photonics Journal 13, 6801204 (2021).
88. Jia-Qi Wang, Yuan-Hao Yang, Ming Li, Xin-Xin Hu, Joshua B.
Surya, Xin-Biao Xu, Chun-Hua Dong, Guang-Can Guo, Hong X. Tang, and Chang-Ling Zou*,
“Efficient frequency conversion in a degenerate c(2) microresonator,” Phys.
Rev. Lett. 126, 133601 (2021).
87. Yulu Zhang, Jin Lu, Zichun Le, Chun-Hua Dong, Huan Zheng, Yali Qin, Peiqiong Yu, Weisheng Hu, Senior Member, Chang-Ling Zou and Hongliang Ren, “Proposal of unsupervised gas classification by multimode microresonator,” IEEE Photonics Journal 13, 5800111 (2021).
86. C.-Q. Yu, R. Niu, Z.-D. Peng, H. Li,
Y.-M. Luo, T.-J. Zhou*, and C.-H. Dong*,
“A current sensor based on capillary microresonator
filled with Terfenol-D nanoparticles,” IEEE Photonics
Technique Letters 33, 239 (2021).
85. Y.-J. Qian#, Q.-T. Cao#, S. Wan, Y.-Z. Gu, L.-K. Chen, C.-H. Dong*, Q.-H. Song*, Q. Gong, and Y.-F. Xiao*, “Observation of manifold in chaotic phase space of an asymmetric optical microcavity,” Photonics Research 9, 364 (2021).
84. Xiang Xi#, Jingwen Ma#, Shuai Wan, Chun-Hua Dong, and Xiankai Sun*, “Observation of chiral edge states in gapped nanomechanical graphene,” Science Advances 7, eabe1398 (2021).
83. Jin Lu, Rui Niu, Shuai Wan, Chun-Hua Dong, Zichun Le, Yali Qin, Yingtian Hu, Weisheng Hu, Chang-Ling Zou*, and Hongliang Ren*, “Experimental demonstration of multimode microresonator sensing by machine learning,” IEEE Sensors Journal 21, 9046-9053 (2021), arXiv: 2010.14483.
2020
82. X.-X. Gao, J.-M. Cui*, Z.-H. Hu, C.-H. Dong, J. Wang, Y.-F. Huang, C.-F. Li*, and G.-C. Guo, “Fast
and wide-band tuning single-mode microlaser based on
fiber Fabry–Pérot microcavities,” Photonics Research 8, 1642 (2020).
81. Qijing Lu, Xiaogang Chen, Xianlin Liu, Junqiang Guo, Shusen Xie*, Xiang Wu*, Chang-Ling Zou*, and Chun-Hua Dong, “Opto-fluidic-plasmonic liquid-metal core microcavity,” Appl. Phys. Lett. 117, 161101 (2020).
80. Z.-D. Peng, C.-Q. Yu, H.-L. Ren, C.-L. Zou, G.-C. Guo, and C.-H. Dong*, “Gas identification in the high-Q microbubble resonators,” Optics Letters 45, 4440 (2020).
79. S. Wan#, R. Niu#, Z.-Y. Wang, J.-L. Peng, M. Li, J. Li, G.-C. Guo, C.-L. Zou*, and C.-H. Dong*, “Frequency stabilization and tuning of breathing soliton in Si3N4 microresonators,” Photonics Research 8, 1342 (2020).
78. Y.-L. Zhang, C.-S. Yang, Z.
Shen, C.-H. Dong, G.-C. Guo, C.-L.
Zou*, and X.-B. Zou*, “Enhanced optomechanical entanglement and cooling via
dissipation engineering,” Physical Review A 101, 063836 (2020).
77. S. Wan, F.-J. Shu, R. Niu, G.-C. Guo, C.-L. Zou and C.-H. Dong*, “Perpendicular coupler for standing wave excitation
and wavelength selection in high-Q silicon microresonators,”
Optics Express 28, 15835 (2020).
76. D. Hu, C. Zou, H. Ren*, J. Lu,
Z. Le, Y. Qin, S. Guo, C.-H. Dong,
W. Hu, “Multi-Parameter Sensing in a Multimode Self-Interference Micro-Ring
Resonator by Machine Learning,” Sensors 20
(3), 709 (2020).
75. M. Li, Y.-L. Zhang, H. X Tang, C.-H. Dong*, G.-C. Guo, C.-L. Zou*, “Photon-Photon Quantum Phase Gate in a Photonic Molecule with c(2) Nonlinearity,” Physical Review Applied 13, 044013 (2020).
74. X.-X. Hu, J.-Q. Wang, Y.-H. Yang, J. B Surya, Y.-L. Zhang, X.-B. Xu, M. Li, C.-H. Dong, G.-C. Guo, H. X Tang, C.-L. Zou*, “All-optical thermal control for second-harmonic generation in an integrated microcavity,” Optics Express 28, 11144 (2020).
73. F.-X. Wang, W. Wang*, R. Niu, X. Wang, C.-L. Zou, C.-H. Dong*, B. E. Little, S. T. Chu, H. Liu, P. Hao, S. Liu, S.
Wang, Z.-Q. Yin, D.-Y. He, W. Zhang*, W. Zhao, Z.-F. Han, G.-C. Guo, W. Chen*,
“Quantum key distribution with on-chip dissipative kerr
soliton,” Laser & Photonics Reviews 14,
1900190 (2020). arXiv:1812.11415v1
72. F.-J. Shu, P.-J. Zhang, Y.-J.
Qian, Z.-Y. Wang, S. Wan, C.-L. Zou, G.-C. Guo and C.-H. Dong*, “A mechanical tuned Kerr comb in a
dispersion-engineered silica micro-bubble resonator,” SCIENCE CHINA: Physics,
Mechanics & Astronomy 63, 254211
(2020).
71. C.-Z. Chai, H.-Q. Zhao, H. X.
Tang, G.-C. Guo, C.-L. Zou, and C.-H.
Dong*, “Non-reciprocity in high-Q ferromagnetic microspheres via photonic
spin-orbit coupling,” Laser & Photonics Reviews 14, 1900252 (2020). DOI: 10.1002/lpor.201900252
2019
70. X.-B. Xu, L. Shi*, G.-C. Guo, C.-H. Dong, and C.-L. Zou*, “Mobius Microring Resonator”, Appl. Phys.
Lett. 114, 101106 (2019).
69. Z. Lu#, W. Wang#*,
W. Zhang*, S. T. Chu, B. E. Little, M. Liu, L. Wang, C.-L. Zou, C.-H. Dong, B. Zhao, and W. Zhao,
“Deterministic generation and switching of dissipative Kerr soliton in a
thermally controlled micro-resonator,” AIP Advances 9, 025314 (2019).
68. X.-B. Xu, X. Guo, W. Chen, H.
X. Tang, C.-H. Dong, G.-C. Guo, and
C.-L. Zou*, “Flat-top optical filter via the adiabatic evolution of light in an
asymmetric coupler,” Phys. Rev. A 100,
023809 (2019).
67. X.-D. Chen, D.-F. Li, Y.
Zheng, S. Li, B. Du, Y. Dong, C.-H. Dong,
G.-C. Guo, and F.-W. Sun*, “Superresolution
Multifunctional Sensing with the Nitrogen-Vacancy Center in Diamond,” Phys.
Rev. Applied 12, 044039 (2019).
66. X.-X. Hu, C.-L. Zhao, Z.-B.
Wang, Y.-L. Zhang, X.-B. Zou, C.-H. Dong,
H. X. Tang, G.-C. Guo, and C.-L. Zou*, “Cavity-enhanced optical controlling
based on three-wave mixing in cavity-atom ensemble system,” Optics Express 27, 6660 (2019).
65. Cheng-Zhe
Chai, Xin-Xin Hu, Chang-Ling Zou, Guang-Can Guo, and Chun-Hua Dong*, “Thermal Bistability of Magnon in Yttrium Iron Garnet Microspheres,”
App. Phy. Lett. 114,
021101 (2019).
64. J.-C. Xie,
J.-Q. Wang, Z.-B. Wang, X.-X. Hu, X. Guo, R. Niu, J.
B. Surya, J.-Z. Zhang, C.-H. Dong,
G.-C. Guo, H. X. Tang, and C.-L. Zou*, “Infrared laser locking to a rubidium
saturated absorption spectrum via a photonic chip frequency doubler,”
Optics Letters 44, 1150 (2019).
2018
63. Z.
Shen#, Y.-L. Zhang#, Y. Chen#, F.-W. Sun*,
X.-B. Zou, G.- C. Guo, C.-L. Zou*, and C.-H.
Dong*, “Reconfigurable optomechanical
circulator and directional amplifier,” Nature
Communications 9, 1797 (2018).
62. Y.-L. Zhang, C.-L. Zou, C.-S.
Yang, H. Jing*, C.-H. Dong, G.-C.
Guo, and X.-B. Zou*, “Phase-controlled phonon laser,”
New J. Phys. 20, 093005 (2018).
61. M. Li, C.-L. Zou, C.-H.
Dong, and D.-X. Dai*, “Optimal third-harmonic generation in an optical
microcavity with χ(2) and χ(3)
nonlinearities,” Optics Express, 26,
27294 (2018).
60. M. Li,
C.-L. Zou*, C.-H. Dong, X.-F. Ren,
and D.-X. Dai*, “Enhancement of second-harmonic generation
based on the cascaded second- and third-order nonlinear processes in a
multimode optical microcavity,” Phys. Rev. A 98, 013854 (2018).
59. S. Wan#,
R. Niu#, H.-L. Ren, C.-L. Zou, G.- C. Guo,
and C.-H. Dong*, "Experimental demonstration of dissipative
sensing in a self-interference microring resonator," Photonics Research 6, 681 (2018).
58. Z.-H.
Zhou, Y. Chen, Z. Shen, C.-L. Zou, G.- C. Guo, and C.-H. Dong*, "Tunable
Add–Drop Filter With Hollow Bottlelike Microresonators," IEEE Photonics Journal 10, 7101607 (2018).
2017
57. Y.
Chen#, Z.-H. Zhou#, C.-L. Zou, Z. Shen, G.- C. Guo, and C.-H. Dong*, "Tunable Raman laser in a hollow bottle-like microresonator," Opt. Express 25, 16879 (2017).
56. Y.-L.
Zhang, C.-H. Dong, C.-L. Zou*, X.-B.
Zou*, Y.-D. Wang, and G.-C. Guo, "Optomechanical devices based on traveling-wave microresonators," Phys. Rev. A 95, 043815 (2017).
55. Z.-H. Zhou, C.-L. Zou, Y.
Chen, Z. Shen, G.-C. Guo, and C.-H.
Dong*, "Broadband tuning of the
optical and mechanical modes in hollow bottle-like microresonators," Optics Express 25,
4046 (2017).
54. Qi-Tao Cao#,
He-Ming Wang#, Chun-Hua Dong#,
Hui Jing, Rui-Shan Liu, Xi Chen, Li Ge, Qihuang Gong,
and Yun-Feng Xiao, "Experimental
demonstration of spontaneous chirality in a nonlinear microresonator,"
Phys. Rev. Lett. 118, 033901 (2017).
53. X.-D. Chen, S. Li, A. Shen, Y. Dong, C.-H. Dong, G.-C. Guo, and F.-W. Sun, "Near-infrared-enhanced charge-state conversion for low-power optical nanoscopy with nitrogen-vacancy center in diamond," Phys. Rev. Applied 7, 014008 (2017).
2016
52. Zhen Shen, Yan-Lei Zhang, Yuan Chen, Chang-Ling Zou*, Yun-Feng Xiao, Xu-Bo Zou, Fang-Wen Sun, Guang-Can Guo and Chun-Hua Dong*, "Experimental realization of optomechanically induced non-reciprocity," Nature Photonics 10, 657 (2016) Doi:10.1038/Nphoton.2016.161.
51. Yuan
Chen, Zhen Shen, Xiao Xiong, Chun-Hua Dong*, Chang-Ling Zou*, and Guang-Can
Guo, "Mechanical bound state in the
continuum for optomechanical microresonators," New Journal of
Physics 18, 063031 (2016).
50. Zhen
Shen, Chun-Hua Dong*, Yuan
Chen, Yun-Feng Xiao, Fang-Wen Sun, and Guang-Can
Guo, "Compensation of the Kerr
effect for transient optomechanically induced transparency in a silica
microsphere," Optics Letters 41, 1249 (2016).
2015
49. Zhen Shen, Zhong-Hao
Zhou, Chang-Ling Zou, Fang-Wen Sun, Guo-Ping Guo, Chun-Hua Dong, and Guang-Can Guo,
"Observation of high-Q optomechanical modes in the
mounted silica microspheres," Photonics Research 3, 243 (2015).
48. Wei Fu, Fang-Jie Shu, Yan-Lei Zhang,
Chun-Hua Dong, Chang-Ling Zou, and Guang-Can
Guo, "Integrated optical circulator
by stimulated Brillouin scattering induced non-reciprocal phase shift,"
Optics Express 23, 25118 (2015).
47. Zhong-Hao Zhou, Fang-Jie Shu, Zhen Shen, Chun-Hua
Dong, and Guang-Can Guo, "High-Q
whispering gallery modes in a polymer microresonator
with broad strain tuning," SCIENCE CHINA: Physics, Mechanics
& Astronomy, 58, 114208 (2015).
46. Chun-Hua Dong, Zhen Shen, Chang-Ling
Zou, Yan-Lei Zhang, Wei Fu, and Guang-Can
Guo, "Brillouin-scattering-induced
transparency and non-reciprocal light storage," Nature Communications 6, 6193 (2015).
45. C.-H. Dong, Z. Shen, C.-L. Zou, and G.-C. Guo, "Interconversion of photon-phonon in a silica optomechanical microresonator," SCIENCE CHINA: Physics, Mechanics & Astronomy 58, 050308 (2015).
44. Xiangdong Chen, Chang-Ling Zou, Zhaojun Gong, Chun-Hua Dong, Guang-Can Guo, and Fang-Wen Sun, "Sub-diffraction resolution optical manipulation of the charge state of nitrogen vacancy center in diamond," Light: Science & Applications 4, e230 (2015).
43. Chuang Zhang, Chang-Ling Zou, Yan Zhao, Chun-Hua Dong, Cong Wei, Hanlin Wang, Yunqi Liu, Guang-Can Guo, Jiannian Yao, and Yong Sheng Zhao, "Organic printed photonics: from microring lasers to integrated circuits," Science Advances 1, e1500257 (2015).
42. Yong-Chun Liu, Rui-Shan Liu, Chun-Hua Dong, Yan Li, Qihuang Gong, and Yun-Feng Xiao, "Cooling mechanical resonators to quantum ground state from room temperature," Phys. Rev. A 91, 013824 (2015).
41. Chun-Hua Dong, Victor Fiore, Mark C. Kuzyk, L. Tian, and Hailin Wang, "Optical wavelength conversion via optomechanical coupling in a silica resonator," Annalen der Physik 527, 100 (2015).
2014
40. Chun-Hua Dong, Jingtao Zhang, Victor Fiore, and Hailin
Wang, "Optomechanically-induced
transparency and self-induced oscillations with Bogoliubov
mechanical modes," Optica 1,
425 (2014).
39. Kenan Qu, Chun-Hua
Dong*, and Hailin Wang, and G. S. Agarwal,
"Optomechanical Ramsey Interferometry," Phys. Rev. A 90, 053809 (2014).
2013
38. Thein Oo, Chunhua Dong, Victor
Fiore, and Hailin Wang, "Evanescently-coupled
optomechanical system with SiN nanobeam and deformed
silica microsphere," App. Phy. Lett. 103, 031116 (2013).
37. Chun-Hua Dong, Victor Fiore, Mark C. Kuzyk, and Hailin Wang, "Transient optomechanically induced transparency in a silica microsphere," Phys. Rev. A 87, 055802 (2013).
36. Victor Fiore, Chun-Hua Dong, Mark C. Kuzyk, and Hailin Wang, "Optomechanical Light Storage in a Silica Microresonator," Phys. Rev. A 87, 023812 (2013).
35. Jin-Ming Cui, Chun-Hua Dong, Chang-Ling Zou, Fang-Wen Sun, Yun-Feng Xiao, Zheng-Fu Han, and Guang-Can Guo, "Controlling deformation in a high quality factor silica microsphere toward single directional emission," Appl. Opt. 52(2), 298-301 (2013).
34. C.-L. Zou, F.-W. Sun, C.-H. Dong, F.-J. Shu, X.-W. Wu, J.-M. Cui, Y. Yang, Z.-F. Han, and G.-C. Guo,"High Q and Unidirectional Emission Whispering Gallery Modes: Principles and Design", IEEE Photonics Society (IPS) Journal of Selected Topics in Quantum Electronics 19, 9000406 (2012).
33. Xue-Wei Xu, Xi-Mo Zhang, Chao Liu, Ying-Long Yang, Jian-Wei, Huai-Ping Cong, Chun-Hua Dong, Xi-Feng Ren, and Shu-Hong Yu, "One-Pot Colloidal Chemistry Route to Homogeneous and Doped Colloidosomes", J. Am. Chem. Soc. 135, 12928-12931 (2013).
2012
32. C.-H.
Dong, Victor Fiore, Mark C. Kuzyk, and Hailin Wang, "Optomechanical
dark mode," Science 338, 1609 (2012).
31. L.
Lu, L.-L. Wang, C.-L. Zou, X.-F. Ren, C.-H. Dong, F.-W.
Sun, G.-P. Guo, and G.-C. Guo, “Double
and triple coupled nanowires nanoantennas”, J.
Phys. Chem. C 116, 23779 (2012).
30.
X.-F. Jiang, Y.-F. Xiao, C.-L. Zou, L. He, C.-H. Dong, B.-B. Li, Y. Li,
F.-W. Sun, L. Yang and Q.-H. Gong, “Highly
Unidirectional Emission and Ultralow-Threshold Lasing from On-Chip Ultrahigh-Q
Microcavities”, Adv. Mater. 24, OP260 (2012).
29.
C.-L. Zou, F.-W. Sun, C.-H. Dong, Y.-F.
Xiao, X.-F. Ren, L. Lv, X.-D. Chen, J.-M. Cui, Z.-F.
Han, G.-C. Guo, “Movable Fiber-Integrated
Hybrid Plasmonic Waveguide on Metal Film”, IEEE
Photonic Technology Letters 24, 434 (2012).
28.
Chun-Hua Dong, Chang-Ling Zou,
Xi-Feng Ren, Guang-Can Guo, and Fang-Wen Sun, “In-line high
efficient fiber polarizer based on surface plasmon”, App. Phy. Lett. 100, 041104 (2012).
2011
27.
C.-L. Zou, F.-W. Sun, C.-H.
Dong, X.-F. Ren, J.-M. Cui, X.-D. Chen,
Z.-F. Han, G.-C. Guo, "Broadband Integrated Polarization Beam Splitter
with Surface Plasmon", Optics Letters 36, 3630 (2011).
26.
X.-D. Chen, C.-H.
Dong, F.-W. Sun, C.-L. Zou, J.-M. Cui, and
G.-C. Guo, "Temperature dependent energy level shift of NV centers in
diamond", App. Phy. Lett. 99, 161903 (2011).
2010
25. Y. Zhang, W. Chen, S. Wang, Z.-Q. Yin, F.-X. Xu, X.-W. Wu, C.-H. Dong, H.-W. Li, G.-C. Guo, Z.-F. Han, "Practical non-Poissonian light source for passive decoy state quantum key distribution", Optics Letters 35, 3393 (2010).
24. Y.-F. Xiao, C.-L. Zou, P. Xue, L. Xiao, Y. Li, C.-H. Dong, Z.-F. Han, and Q.-H. Gong, "Quantum electrodynamics in a whispering gallery microcavity coatedwith a polymer nanolayer", Phys. Rev. A 81, 053807 (2010).
23. Y.-F. Xiao, C.-L. Zou, B.-B. Li, Y. Li, C.-H. Dong, Z.-F. Han, and Q.-H. Gong, "High-Q exterior whispering gallery modes in a metal-coated microresonator ", Phys. Rev. Lett. 105, 153902 (2010).
22. C.-L. Zou, F.-W. Sun, Y.-F. Xiao, C.-H. Dong, X.-D. Chen, J.-M. Cui, Q.-H. Gong, Z.-F. Han, and G.-C. Guo,"Plasmonic modes of silver nanowire on a silica substrate ", Appl. Phys. Lett. 97, 183102 (2010).
21. C.-L. Zou, Y.-F. Xiao, Z.-F. Han, C.-H. Dong, X.-D. Chen, J.-M. Cui, G.-C. Guo, F.-W. Sun, "High-Q Nanoring Surface Plasmon Microresonator", J. Opt. Soc. A. B 27, 2495 (2010).
20. Chun-Hua Dong, Y. Yang, Y.-L. Shen, C.-L. Zou, F.-W. Sun, H. Ming, G.-C. Guo, and Z.-F. Han, "Observation microlaser with Er-doped phosphate glass coated microsphere pumped by 780 nm", Optics Communication 283, 5117 (2010).
19. Chun-Hua Dong, Fang-Wen Sun, Chang-Ling Zou, Xi-Feng Ren, Guang-Can Guo, and Zheng-Fu Han,"High-Q microsphere by poly(methyl methacrylate) coating and modifying", App. Phy. Lett. 96, 061106 (2010).
18. Y.-F. Xiao, Y. Li and Q.-H. Gong; C.-L. Zou, C.-H. Dong, Z.-F. Han, "Asymmetric resonant cavities and their applications in optics and photonics: a review", Frontiers of Optoelectronics in China, 3(2): 109-124 (2010).
17. Xiao-Wei Wu, Ming Gong, Chun-Hua Dong, Jin-Ming Cui, Yong Yang, Fang-Wen Sun, Zheng-Fu Han, and Guang-Can Guo, "Anti-bunching and luminescence blinking suppression from plasmon-interacted single CdSe/ZnS quantum dot", Optics Express 18, 6340-6346 (2010).
2009
16. Chun-Hua Dong, Xi-Feng Ren, Rui Yang, Jun-Yuan Duan, Jian-Guo Guan, Guang-Can Guo, and Guo-Ping Guo, "Light coupling from an optical fiber taper into silver nanowires", App. Phy. Lett. 95, 221009 (2009).
15. Chun-Hua Dong, Chang-Ling Zou, Yun-Feng Xiao, Jin-Ming Cui, Zheng-Fu Han, and Guang-Can Guo, "Modified transmission spectrum induced by two-mode interference in a single silica microsphere", J. Phys. B: At. Mol. Opt. Phys. 42, 215401 (2009). Featured in the Highlights.
14. Chang-Ling Zou, Yong Yang, Yun-Feng Xiao, Chun-Hua Dong, Zheng-Fu Han, and Guang-Can Guo, "Accurately calculate the Quality factor for High Q Whispering Gallery Modes base on boundary element method", JOSAB, 26, 2050 (2009).
13. Chun-Hua Dong#, Li-Na He#, Yun-Feng Xiao, V. R. Gaddam, S. K. Ozdemir, Z.-F. Han, G.-C. Guo, and Lan Yang, "Fabrication of high-Q PDMS optical microspheres for thermal sensing", App. Phy. Lett. 94, 231119 (2009).
12. Chun-Hua Dong, Chang-Ling Zou, Jin-Ming Cui, Zheng-Fu Han, and Guang-Can Guo, "Ringing phenomenon in silica microspheres", Chinese Optics Letters, 7, 299-301 (2009).
11. Yun-Feng Xiao#, Chun-Hua Dong#, Chang-Ling Zou, Zheng-Fu Han, and Guang-Can Guo, "Low-threshold microlaser in a high-Q asymmetrical microcavity", Optics Letters, 34, 509 (2009).
2008
10. Chun-Hua Dong#, Yun-Feng Xiao#, Zheng-Fu Han, Guang-Can Guo, X.-S. Jiang, L.-M. Tong, C. Gu, and H. Min, "Low-threshold microlaser in Er:Yb phosphate glass coated microsphere", IEEE Photonics Technique Letters, 20, 342 (2008).
9. Chun-Hua Dong#, Yun-Feng Xiao#, Yong Yang, Zheng-Fu Han, Guang-Can Guo, and Lan Yang, "Directly mapping whispering-gallery modes in microsphere through modal coupling and directional emission", Chinese Optics letters, 6, 300 (2008).
8. Li-Na He, Yun-Feng Xiao, Chun-Hua Dong, J. Zhu, V. Gaddam, and L. Yang, "Compensation of thermal refraction effect in high-Q toroidal microresonator by polydimethylsiloxane coating", App. Phy. Lett. 93, 201102 (2008).
7. Chang-Ling Zou, Yong Yang, Chun-Hua Dong, Yun-Feng Xiao, Xiao-Wei Wu, Zheng-Fu Han and Guang-Can Guo, "Taper-microsphere coupling with numerical calculation of coupled-mode theory", JOSA B, 25, 1895 (2008).
6. Y.-F. Xiao, S. K. Özdemir, V. Gaddam, C.-H. Dong, N. Imoto, and L. Yang, "Quantum nondemolition measurement of photon number via optical Kerr effect in an ultra-high-Q microtoroid cavity", Optics Express 16, 21462 (2008).
5. Y.-F. Xiao, B. Min, X. Jiang, C.-H. Dong, and L. Yang, "Coupling whispering gallery mode microcavities with modal coupling mechanism", IEEE Journal of Quantum Electronics 44, 1065 (2008).
2007
4. Yun-Feng Xiao#, Chun-Hua Dong#, Zheng-Fu Han, and Guang-Can Guo, "Directional escape from a high-Q deformed microsphere induced by short CO2 laser pulses", Optical Letters, 32, 664 (2007).
3. Xiao-Wei Wu, Yun-Feng Xiao, Yong Yang, Chun-Hua Dong, Zhengfu Han, and Guangcan Guo, "Fiber Taper Coupled High-Q Planar Microdisk", Chinese Optics letters, 5, 668 (2007).
2. Yong Yang, Yun-Feng Xiao, Chun-Hua Dong, et al, "Fiber Taper Coupled Zeolite Cylindrical Microcavity with Hexagonal Cross Section", Applied Optics, 46, 7590 (2007).
2006
1. Yong Yang, Zheng-Fu Han, Chun-Hua Dong, Yun-Feng Xiao, and Guang-Can Guo, "Modulated Photon Emission of Eu3+ in Microsphere Cavity", Chinese Physics Letters, 23, 2442 (2006).
Presentation List
• C.-H. Dong#, L.-N. He#, Y.-F. Xiao, V. R. Gaddam, S. K. Ozdemir, and L. Yang, "Fabrication of high-Q PDMS optical microspheres with applications towards thermal sensing", CLEO/IQEC 2009.
• L.-N. He, Y.-F. Xiao, C.-H. Dong, J. Zhu, V. Gaddam, and L. Yang, "Compensation of thermal refraction effect in high-Q toroidal microresonator by polydimethylsiloxane coating", CLEO/IQEC 2009.
• Y.-F. Xiao#, C.-H. Dong#, C.-L. Zou, Z.-F. Han, L. Yang, and G.-C. Guo, "Microlasing in a high-Q deformed microcavity", oral contribution, ITCON conference, Greece 2008.
• Y.-F. Xiao#, C.-H. Dong#, C.-L. Zou, Z.-F. Han, L. Yang, and G.-C. Guo, "Inherently directional lasing from a thermal-induced-deformation high-Q microcavity", oral contribution, CLEO Conference, USA 2008.
#These two authors contribute equally.*Corresponding author.