2025

230 Yu Liu, Jun-Xuan Chen, Ben-Qi Hou, Yu-Tong Xiao, Bo Xiong, Jia-Nan Wang, Xing-Yuan Huo, Ru-Wen Peng*, and Mu Wang*, “Phase-change-material-based flexible metasurfaces for electrically-tuned broadband infrared image steganography”, Physical Review Applied, 23, 014039 (2025). pdf

2024

229 Hongchen Chu, Xiang Xiong, Nicholas X. Fang, Feng Wu, Runqi Jia, Ruwen Peng*, Mu Wang*, Yun Lai*, “Matte surfaces with broadband transparency enabled by highly asymmetric diffusion of white light”, Science Advances, 10, eadm8061 (2024). pdf

228 Runqi Jia, Yongxin Jing, Hongchen Chu*, Ruwen Peng*, Mu Wang*, and Yun Lai*, “Dewdrop metasurfaces and dynamic control based on condensation and evaporation”, Advanced Science, 11, 2404010 (2024). pdf

227 Hao Luo, Jie Luo*, Zhihui Zhang, Chao Wu, Quan Li, Wei Liu, Ruwen Peng, Mu Wang, Hongqiang Li*, and Yun Lai*, “Dielectric metamaterials with effective self-duality and full-polarization omnidirectional brewster effect”, Light: Science & Applications, 13, 262 (2024). pdf

226 Ziyu Wang, Qiming Zhao, Wenjie Tang, Yajun Gao, Jie He, Yi Zhu, Shuxian Wang, Haohai Yu, Ruwen Peng*, and Mu Wang*, “Giant enhancement of third harmonic generation via guided mode resonances in notched silicon waveguides”, Applied Physics Letters, 124, 101101 (2024). pdf

225 Feng-Jun Li, Shuai Wang, Rui Zhong, Meng-Xia Hu, Yue Jiang, Meijiu Zheng, Mu Wang, Xiangping Li, Ruwen Peng*, and Zi-Lan Deng*, “Metasurface polarization optics: From classical to quantum”, Applied Physics Reviews, 11, 041332 (2024). pdf

224 Wenjie Tang, Qiming Zhao, Ziyu Wang, Yajun Gao, Jie He, Yi Zhu, Shuxian Wang, Haohai Yu, Ruwen Peng*, and Mu Wang*, “Realizing high-efficiency third harmonic generation via accidental bound states in the continuum”, Optics Letters, 49, 1169 (2024). pdf

223 Xiang Xiong, Baohui Zhang, Ruwen Peng*, and Mu Wang*, “Simulation study of flexible wavefront shaping in Smith-Purcell radiation with aperiodic Metagratings”, Optics Expresss, 32, 36381 (2024). pdf

222 Cong Wang, Xiangteng Li, Hongchen Chu*, Baiyang Liu, Shenhao Miao, Ruwen Peng*, Mu Wang*, and Yun Lai*, “Programmable flip-metasurface with dynamically tunable reflection and broadband undistorted transmission”, Nanophotonics, 13, 2151-2159 (2024). pdf

221 Xinggang Shang, Ning Wang*, Chengyao Li, Wei Yan, Yitong Gu, Ruwen Peng, Nanjia Zhou*, and Min Qiu*, “Observation of wide bandwidth and giant chiroptical response empowered by core–shell micro-helixes”, Advanced Photonics Research, 5, 2300298 (2024). pdf

220 Wenjie Ji, Jie Luo*, Tongtong Song, Ruwen Peng*, Mu Wang*, and Yun Lai*, “Cladding-free hyperbolic waveguide arrays”, ACS Photonics, 11, 2422–2429 (2024). pdf

219 Qingxuan Li, Qunyong Luo, Yi Zhu, Bowen Zheng, Liqi Zhou, Fei Chen, Di Wu, Ru-Wen Peng,* and Mu Wang*, “Anisotropic etching of monolayer MoS2 flakes for zigzag edges in chemical vapor deposition”, ACS Applied Materials & Interfaces, 16, 66792–66801 (2024). pdf

218 Li-Jiong Chen, Zhen-Long Dou, Xu-Chao Jia, Shuo Zhang, Ru-Wen Peng, Li Zhou*, Qu-Quan Wang*, “Enhanced nonlinear radiations in plexcitonic hybrids of cyanine dyes and silver nanostructured films for advanced photonic applications”, ACS Applied Nano Materials, 7, 17504–17511 (2024). pdf

2023

217 Bo Xiong, Yu Liu, Yihao Xu, Lin Deng, Chao-Wei Chen, Jia-Nan Wang, Ruwen Peng*, Yun Lai, Yongmin Liu*, Mu Wang*, “Breaking the limitation of polarization multiplexing in optical metasurfaces with engineered noise”, Science, 379, 294-299 (2023). pdf

David Pile, “Add noise for better multiplexing”, News & views in Nature Photonics, 17, 294, (2023). pdf

216 Chao-Wei Chen, Le-Di Chen, Cheng-Yao Li, Xiang-Yu Wu, Qing Cai, Ren-Hao Fan, Dong-Xiang Qi, Ru-Wen Peng*, and Mu Wang*, “Strong coupling of localized surface plasmons and intermolecular vibration mode at terahertz frequencies”, Applied Physics Letters, 122, 191705 (2023) (online May 9, 2023, Featured Article). pdf

215 Gong-Hui Tang, Yu-Liang Hong, Rui-Li Zhang*, Ren-Hao Fan*, Zhong-Li Ma, Xiang-Yu Wu, Dong-Xiang Qi, Ru-Wen Peng*, and Mu Wang*, "Adjustable topological corner states in terahertz valley photonic crystals", Physical Review B, 108, 205411 (2023). pdf

214 Wenjie Ji, Jie Luo*, Hongchen Chu, Xiaoxi Zhou, Xiangdong Meng, Ruwen Peng*, Mu Wang*, and Yun Lai*, “Crosstalk prohibition at the deep-subwavelength scale by epsilon-near-zero cladding”, Nanophotonics, (online published on April 25, 2023). pdf

213 Fei Chen, Ren-Hao Fan, Jun-Xuan Chen, Yu Liu, Ben-Qi Hou, Ru-Wen Peng*, and Mu Wang*, “Tuning Smith-Purcell radiation by rotating metallic nanodisk array”, Optics Letters, 48, 2002 (2023). pdf

212 Xiang Xiong, Zhao-Yuan Zeng, Ruwen Peng*, and Mu Wang*, “Directional Chiral Optical Emission by Electron-Beam-Excited Nano-Antenna”, Chinese Physics Letters, 40, 017801(2023). pdf

2022

211 Ya-Jun Gao, Zheng Wang, Yue Jiang, Ru-Wen Peng*, Zi-Yu Wang, Dong-Xiang Qi, Ren-Hao Fan, Wen-Jie Tang, and Mu Wang*, “Multichannel distribution and transformation of entangled photons with dielectric metasurfaces”, Physical Review Letters, 129, 023601 (2022). pdf

210 Fei Chen, Zihao Yang, Jing-Ning Li, Fei Jia, Fan Wang, Di Zhao, Ru-Wen Peng*, Mu Wang*, “Formation of Magnetic Nanowire Arrays by Cooperative Lateral Growth”, Science Advances, 8, eabk0180 (2022). pdf

209 Wei Ma*, Yihao Xu, Bo Xiong, Lin Deng, Ru-Wen Peng*, Mu Wang, and Yongmin Liu*, “Pushing the limits of functionality-multiplexing capability in metasurface design based on statistical machine learning”, Advanced Materials, 2110022 (2022). https://doi.org/10.1002/adma.202110022. pdf

208 Tongtong Song, Hongchen Chu, Jie Luo, Zizheng Cao, Meng Xiao, Ruwen Peng*, Mu Wang *, Yun Lai *, “Ultra-Compact Photonic Circuits Without Cladding Layers”, Physical Review X, 12, 011053 (2022). pdf

207 Jie He, Cheng-Yao Li, Dong-Xiang Qi, Qing Cai, Yu Liu, Ren-Hao Fan, Jing Su, Pengcheng Huo, Ting Xu, Ruwen Peng*, and Mu Wang*, “Improving Photoelectric Conversion with Broadband Perovskite Metasurface”, Nano Letters, 22, 6655-6663 (2022). pdf

206 Francisco J. Garcia-Vidal*, Antonio I. Fern¡äandez-Dom¨ªnguez, Luis Martin-Moreno, Hao-Chi Zhang and Wenxuan Tang, Ruwen Peng, Tie-Jun Cui*, “Spoof surface plasmon photonics”, Reviews of Modern Physics, 94, 025004 (2022). pdf

205 Xiangdong Meng, Ruixuan Liu, Hongchen Chu*, Ruwen Peng, Mu Wang, Yang Hao*, and Yun Lai*, “Through-Wall Wireless Communication Enabled by a Metalens”, Physical Review Applied, 17, 064027 (2022). pdf

204 Zheng Wang, Yue Jiang, Ya-Jun Gao, Ren-Hao Fan, Dong-Xiang Qi, Rui Zhong, Hu-Lin Zhang, Ru-Wen Peng*, and Mu Wang*, “Implement quantum tomography of polarization-entangled states via nondiffractive metasurfaces”, Applied Physics Letters, 121, 0818703 (2022). pdf

203 Cong Wang, Xian Shen, Hongchen Chu*, Jie Luo*, Xiaoxi Zhou, Bo Hou, Ruwen Peng, Mu Wang, and Yun Lai*, “Realization of broadband coherent perfect absorption of spoof surface plasmon polaritons”, Applied Physics Letters, 120, 171703 (2022). pdf

202 Cheng-Yao Li, Chaowei Chen, Yu Liu, Jing Su, Dong-Xiang Qi, Jie He, Ren-Hao Fang, Qing Cai, Qingxuan Li, Ruwen Peng*, Xian-Rong Huang*, Mu Wang*, “Multiple-polarization-sensitive photodetector based on perovskite metasurface”, Optics Letters, 47, 565 (2022). pdf

201 Xiang Xiong, Siwen Wei, Wenjie Tang, Ruwen Peng*, and Mu Wang*, “Realizing transmissive and reflective focusing with an on-chip metalens”, Optics Letters, 47, 3696-3699. pdf

200 Yu-Liang Hong, Gong-Hui Tang, Ru-Wen Peng*, Ren-Hao Fan*, Zhong-Li Ma, Zheng Wang, Yue Jiang, Le-Di Chen, and Mu Wang*, "Direct observation of terahertz topological valley transport", Optics Expresss, 30, 14839 (2022). pdf

199 Hongchen Chou, Ye Zhang, Xiaoxuan Ma, Xiang Xiong, Ruwen Peng*, Mu Wang*, and Yun Lai*, “Flip-component metasurfaces for camouflaged meta-domes”, Optics Express, 30, 17321 (2022). pdf

198 Xueke Duan, Haoxiang Chen, Yun Ma, Zhiyuan Qian, Qi Zhang, Yun Lai, Ruwen Peng, Qihuang Gong and Ying Gu*, “Nesting and degeneracy of Mie resonances of dielectric cavities within zero-index materials”, Journal of Optics, 24, 025401(2022). pdf

197 Qingxuan Li, Lei Zhang, Chengyao Li, Jie He, Yifan Wei, Jinzhu Zhao, Ruili Zhang, Peng Wang, Shaojie Fu, Fei Chen, Ruwen Peng*, Mu Wang*, "Morphological Evolution of Monolayer MoS2 Single-Crystalline Flakes", Journal of Physical Chemistry C, 126, 3549−3559 (2022). pdf

196 Le-Di Chen, Ren-Hao Fan*, Gong-Hui Tang, Zhong-Li Ma, Ru-Wen Peng*, and Mu Wang*, “Tuning broadband terahertz polarization states with flexible metamaterials”, Acta Physica Sinica, 71, 187802 (2022). pdf

195 Renhao Fan, Benqi Hou, Ruwen Peng*, and Mu Wang*, “Dynamically Tunable Optical Materials and Devices Based on Phase Transition of Vanadium Dioxide”, Acta Photonica Sinica , 51, 0551304 (2022,Invited). pdf

2021

194 Bo Xiong, Yihao Xu, Jianan Wang, Lin Li, Lin Deng, Feng Cheng, Ru-Wen Peng*, Mu Wang*, Yongmin Liu*, “Realizing colorful holographic mimicry by metasurfaces”, Advanced Materials, 33, 2005864 (2021). pdf

193 Hongchen Chu, Xiang Xiong, Ya-Jun Gao, Jie Luo, Hao Jing, Cheng-Yao Li, Ruwen Peng*, Mu Wang*, Yun Lai*, “Diffuse reflection and reciprocity-protected transmission via a random-flip metasurface”, Science Advances, 7, eabj0935 (2021). pdf

192 Chenkai Liu, Jinjie Shi, Wei Zhao, Xiaoxi Zhou, Chu Ma, Ruwen Peng, Mu Wang, Zhi Hong Hang, Xiaozhou Liu, Johan Christensen, Nicholas X. Fang*, and Yun Lai* “Three-Dimensional Soundproof Acoustic Metacage”, Physical Review Letters, 127, 084301 (2021). pdf

191 Hongchen Chu, Haoyang Zhang, Yang Zhang, Ruwen Peng, Mu Wang, Yang Hao*, and Yun Lai*, "Invisible surfaces enabled by the coalescence of anti-reflection and wavefront controllability in ultrathin metasurfaces", Nature Communications, 12, 4523 (2021). pdf

190 Jie Luo, Hongchen Chu, Ruwen Peng, Mu Wang, Jensen Li*, and Yun Lai*, “Ultra-broadband reflectionless Brewster absorber protected by reciprocity”, Light: Science & Applications, 10, 89 (2021). pdf

189 Fang-Zhou Shu, Jia-Nan Wang, Ru-Wen Peng*, Bo Xiong, Ren-Hao Fan, Ya-Jun Gao, Yongmin Liu*, Dong-Xiang Qi, and Mu Wang*, “Electrically-driven tunable broadband polarization states via active metasurfaces based on Joule-heat-induced phase transition of vanadium dioxide”, Laser & Photonics Reviews, 15, 2100155 (2021). pdf

188 Jia-Nan Wang, Bo Xiong, Ru-Wen Peng*, Cheng-Yao Li, Ben-Qi Hou, Chao-Wei Chen, Yu Liu, and Mu Wang*, “Flexible Phase Change Materials for Electrically-tuned Active Absorbers”, Small, 17, 2101282 (2021). pdf

187 Bo Xiong, Jia-Nan Wang, Ru-Wen Peng*, Hao Jing, Ren-Hao Fan, Dong-Xiang Qi, Fei Chen, and Mu Wang* "Construct achromatic polymer microlens for high-transmission full-color imaging", Advanced Optical Materials, 9, 2001524 (2021). pdf

186 Ya-Jun Gao, Ziyu Wang, Wenjie Tang, Xiang Xiong, Zhenghan Wang, Fei Chen, Ru-Wen Peng *, and Mu Wang *, “Metasurface design for the generation of an arbitrary assembly of different polarization states”, Physical Review B, 104, 125419 (2021). pdf

185 Hong-Wei Wu*, Yun-Qiao Yin, Zong-Qiang Sheng, Yang Li, Dong-Xiang Qi, and Ru-Wen Peng, “Multiband Omnidirectional Ventilated Acoustic Barriers Based on Localized Acoustic Rainbow Trapping”, Physical Review Applied, 15, 054033 (2021). pdf

184 Cheng-Yao Li, Jie He, Yi Zhou, Dong-Xiang Qi, Hao Jing, Jing Su, Ru-Wen Peng*, Ren-Hao Fan, Pengcheng Huo, Ting Xu, and Mu Wang*, “Flexible perovskite nanosheet-based photodetectors for ultraviolet communication applications”, Applied Physics Letters, 119, 251105 (2021). pdf

183 Xiang Xiong, Xi Wang, Zhenghan Wang, Yajun Gao, Ruwen Peng*, and Mu Wang*, “Constructing an achromatic polarization-dependent bifocal metalens with height-gradient metastructures”, Optics Letters , 46, 1193-1196 (2021). pdf

182 Jie He, Yi Zhou, Cheng-Yao Li, Bo Xiong, Hao Jing*, Ruwen Peng*, Mu Wang*, “Metasurface-assisted broadband optical absorption in ultrathin perovskite films”, Optics Expresss, 29, 19170-19182 (2021). pdf

181 Hongchen Chu, Yang Zhang, Jie Luo, Changqing Xu, Xiang Xiong, Ruwen Peng, Mu Wang and Yun Lai*, “Band engineering method to create Dirac cones of accidental degeneracy in general photonic crystals without symmetry”, Optics Expresss, 29, 18070-18080 (2021). pdf

180 Liyou Luo,Yuming Shao, Jensen Li, Renhao Fan, Ruwen Peng, Mu Wang, Jie Luo*, Yun Lai*, “Non-Hermitian effective medium theory and complex Dirac-like cones”, Optics Expresss, 29, 14345 (2021). pdf

179 Jia-Nan Wang, Bo Xiong, Yu Liu, Chao-Wei Chen, Dong-Xiang Qi, Ben-Qi Hou, Ruwen Peng*, and Mu Wang*, “Continuously and reversibly electro-tunable optical nanoantennas based on phase transition of vanadium dioxide ", New Journal of Physics, 23, 075002 (2021). pdf

2020

178 Ren-Hao Fan, Bo Xiong, Ru-Wen Peng,* and Mu Wang*，“Constructing Metastructures with Broadband Electromagnetic Functionality”, Advanced Materials, 32, 1904646 (2020). pdf

177 Ya-Jun Gao, Xiang Xiong, Zhenghan Wang, Fei Chen, Ru-Wen Peng*, and Mu Wang*, “Simultaneous generation of arbitrary assembly of polarization states with geometrical-scaling-induced phase modulation”, Physical Review X , 10, 031035 (2020). pdf

176 Hao Jing, Ruwen Peng*, Ren-Min Ma*, Jie He, Yi Zhou, Zhenqian Yang, Cheng-Yao Li, Yu Liu, Xiaojiao Guo, Yingying Zhu, Di Wang, Jing Su, Cheng Sun, Wenzhong Bao, and Mu Wang*, “Flexible ultrathin single-crystalline perovskite photodetector”, Nano Letters, 20, 7144−7151 (2020).https://dx.doi.org/10.1021/acs.nanolett.0c02468 pdf

175 Yingying Zhu, Jianan Wang, Ru-Wen Peng*, Shiwei Wu, Dongxiang Qi*, Wenzhong Bao, Lianzi Liu, Yi Zhu, Hao Jing, and Mu Wang*, “Excitation enhancement of hot electrons by ultrafast optical pumping in heavily p-doped graphene stacks”, Physical Review Applied , 14, 064049 (2020).pdf

174 Xian-Rong Huang*, Lahsen Assoufid, Ru-Wen Peng*, Albert T. Macrander, Thomas Gog, and Jungho Kim, “Bijvoet pair’s intensity ratio: Convergence of kinematic and dynamical diffraction”, Physical Review Materials, 4, 123401 (2020).pdf

173 Yingying Zhu, Hao Jing, Ru-Wen Peng*, Cheng-Yao Li, Jie He, Bo Xiong, and Mu Wang*, “Realizing Anderson localization of surface plasmon polaritons and enhancing their interactions with excitons in 2D disordered nanostructures", Applied Physics Letters, 116, 201106 (2020).pdf

172 Hao Jing, Yingying Zhu, Ru-Wen Peng*, Cheng-Yao Li, Bo Xiong, Zheng Wang, Yu Liu, and Mu Wang*, “Hybrid organic-inorganic perovskite metamaterial for light trapping and photon-to-electron conversion”, Nanophotonics, (2020, Published online: 13 June 2020).pdf

171 Yingying Zhu, Chang-Gui Li, Yi Zhu, Bo Xiong, Ruwen Peng*, and Mu Wang*, “Tuning Anderson localization of edge-mode graphene plasmons in randomly-gated nanoribbons", Optics Expresss, 28, 16879-16892 (2020).pdf

170 Dong Liu, Yu-Liang Hong, Ren-Hao Fan*, Hao Jing, Ru-Wen Peng*, Yun Lai, Xian-Rong Huang, Cheng Sun, and Mu Wang*, “Bendable disordered metamaterials for broadband terahertz invisibility”, Optics Expresss, 28, 3552-3560 (2020).pdf

2019

169 Ming-Jun Tuo, Li-Heng Zhang, Dong Liu, Ru-Wen Peng*, Ren-Hao Fan, Ze-Guo Chen, Ying Wu, Dong-Xiang Qi, and Mu Wang*, “Twist-projected two-dimensional acoustic topological insulators”, Physical Review B, 99, 205432 (2019).pdf

168 Fang-Zhou Shu, Li-Heng Zhang, Jia-Nan Wang, Ru-Wen Peng*, Ren-Hao Fan, Dong-Xiang Qi, Mu Wang*, “Dynamically tunable bowtie nanoantennas based on the phase transition of vanadium dioxide”, Optics Letters, 44, 2752-2755 (2019).pdf

167 Sijia Sun, Yajun Gao, Xiang Xiong*, Ruwen Peng*, and Mu Wang*, “Constructing multifunctional wave plates with stereo-metastructure arrays”, Optics Letters, 44, 1758-1761 (2019).pdf

166 Wen-Bo Shi, Jie He, Qing-Xuan Li, Xi-Chao She, Di Wang, Hao Jing, Rui-Li Zhang*, Jin-Zhu Zhao, Ru-Wen Peng*, Hu Xu, and Mu Wang*, “Asymmetric Valley Polarization and Photoluminescence in MoS2/MoO3 Heterostructure”, Optics Expresss, 27, 38451-18462 (2019).pdf

165 jianan Deng, Lingyi Zong, Wenzhong Bao*, Mingsai Zhu, Fuyou Liao, Zhongxun Guo, Yuying Xie, Bingrui Lu, Jing Wan, Jiahe Zhu, Ruwen Peng, and Yifang Chen*, “Integration of MoS2 with InAlAs/InGaAs Heterojunction for Dual Color Detection in both Visible and Near-Infrared Bands”, Advanced Optical Materials, 1901039 (2019).pdf

164 Zhaoxian Su, Bo Xiong, Yihao Xu, Ziqiang Cai, Ruwen Peng, Yongmin Liu*, “Manipulating Cherenkov Radiation and Smith-Purcell Radiation by Artificial Structures”, Advanced Optical Materials, 7, 1801666 (Review article) (2019).pdf

163 Bo Xiong, Lin Deng, Ruwen Peng*, and Yongmin Liu*, “Controlling the degrees of freedom in metasurface designs for multi-functional optical devices”, Nanoscale Advances, 1, 3786-3806 (Review article) (2019).pdf

162 Hao Jing, Jie He, Ru-Wen Peng* and Mu Wang, “Aperiodic-order-induced multimode effects and their applications in optoelectronic devices”, Symmetry, 11, 1120 (Review article) (2019).pdf

161 Hong-Wei Wu,* Yang Li,* Hua-Jun Chen, Zong-Qiang Sheng, Hao Jing, Ren-Hao Fan, and Ru-Wen Peng, “Strong purcell effect for terahertz magnetic dipole emission with spoof plasmonic structure”, ACS Applied Nano Materials, 2, 1045−1052 (2019).pdf

160 Fang-Zhou Shu, Ren-Hao Fan, Jia-Nan Wang, Ru-Wen Peng*, and Mu Wang*, “Research advances on dynamically tunable plasmonic materials and devices”, Acta Physica Sinica, 68, 147303 (Review article, in Chinese) (2019).pdf

2018

159 Wen-Bo Shi, Lian-Zi Liu, Ruwen Peng,* Di-Hu Xu, Kun Zhang, Hao Jing, Ren-Hao Fan, Xian-Rong Huang,* Qian-Jin Wang, and Mu Wang*, "Strong localization of surface plasmon polaritons with engineered disorder", Nano Letters, 18, 1896-1902 (2018). pdf

158 Zhi-Yong Jia, Fang-Zhou Shu, Ya-Jun Gao, Feng Cheng, Ru-Wen Peng*, Ren-Hao Fan, Yongmin Liu,* and Mu Wang*, “Dynamically switching the polarization state of light based on the phase transition of vanadium dioxide”, Physical Review Applied, 9, 034009 (2018). pdf

157 Fang-Zhou Shu, Fang-Fang Yu, Ru-Wen Peng*, Ying-Ying Zhu, Bo Xiong, Ren-Hao Fan, Zheng-Han Wang, Yongmin Liu, and Mu Wang*, “Dynamically plasmonic color generation based on phase transition of vanadium dioxide”, Advanced Optical Materials, 6, 1700939 (2018). pdf

156 Ren-Hao Fan, Dong Liu, Ru-Wen Peng*, Wen-Bo Shi, Hao Jing, Xian-Rong Huang, and Mu Wang*, “Broadband integrated polarization rotator using three-layer metallic grating structures”, Optics Expresss, 26, 516 (2018). pdf

155 Di Wang, Wen-Bo Shi, Hao Jing, Rui-Li Zhang, Yingying Zhu, Jing Su, Li-Heng Zhang, Ruwen Peng*, Wenzhong Bao, Ren-Hao Fan, and Mu Wang*, “Photon-induced carrier recombination in the non-layered-structured hybrid organic-inorganic perovskite nano-sheets”, Optics Expresss, 26, 27504 (2018). pdf

154 Wen-Bo Shi, Lei Zhang, Di Wang, Rui-Li Zhang, Yingying Zhu, Li-Heng Zhang, Ruwen Peng*, Wenzhong Bao, Ren-Hao Fan, and Mu Wang*, “Hybrid coupling enhances photoluminescence of monolayer MoS 2 on plasmonic nanostructures”, Optics Letters, 43(17), 4128-4131 (2018). pdf

153 Yuhui Hu, Fei Chen, Yajun Gao, Xiang Xiong, Ruwen Peng*, and Mu Wang*, “Localized excitation of polarized light emission by cathodoluminescence spectroscopy”, Optics Letters, 43(1), 158-161 (2018). pdf

2017

152 Kun Zhang, Tian-Yong Chen, Wen-Bo Shi, Cheng-Yao Li, Ren-Hao Fan, Qian-Jin Wang, Ru-Wen Peng*, and Mu Wang*, “Polarization-dependent strong coupling between surface plasmon polaritons and excitons in an organic-dye-doped nanostructure”, Optics Letters, 42, 2834-2837 (2017). pdf

151 Yuhui Hu, Di Zhao, Zhenghan Wang, Fei Chen, Xiang Xiong, Ruwen Peng*, and Mu Wang*, “Selective propagation and beam splitting of surface plasmons on metallic nanodisk chains”, Optics Letters, 42, 1744-1747 (2017). pdf

150 Zheng-Han Wang, Yuan-Sheng Hu, Xiang Xiong*, Ru-Wen Peng*, and Mu Wang*, “Encoding and display with stereo split-ring resonator arrays ”, Optics Letters, 42, 1153-1156 (2017). pdf

149 Wen-Bo Shi, Tian-Yong Chen, Hao Jing, Ru-Wen Peng* and Mu Wang, “Dielectric lens guides in-plane propagation of surface plasmon polaritons”, Optics Expresss, 25, 5772-5780 (2017). pdf

148 Yu Zhou, Ying-Ying Zhu, Kun Zhang, Hong-Wei Wu, Ru-Wen Peng*, Ren-Hao Fan, and Mu Wang*, “Plasmonic band structures in doped graphene tubes”, Optics Expresss, 25(11), 12081-12089 (2017). pdf

147 Yingyi Yang, Di Wang, Zheng Jie Tan, Xiang Xiong*, Mu Wang, Ruwen Peng, and Nicholas X. Fang*, “Ultrathin platelet antennas mediated light-matter interaction in monolayer MoS2”, Optics Expresss, 25, 10261-10269 (2017). pdf

146 Yu-Qiang Deng, Dong-Xiang Qi*, Ming-Jun Tuo, Lian-Zi Liu, Rui-Li Zhang, Ru-Wen Peng*, and Mu Wang, “Multimode acoustic transparency and slow sound effects in hybrid subwavelength resonators”, Applied Physics Express, 10, 037302 (2017). pdf

145 Jin-Jing Li, Rui-Li Zhang*, Han-Tian Gao, Ru-Wen Peng*, R. S. Huang, and Mu Wang, “One-way transmission of electrons on the topological insulator surface modulated by magnetic potential”, Journal of Applied Physics , 122, 214301 (2017). pdf

2016

144 Fei Chen, Jingning Li, Fangfang Yu, Di Zhao, Fan Wang, Yanbin Chen, Ru-Wen Peng,* and Mu Wang*, “Construction of 3D Metallic Nanostructures on an Arbitrarily Shaped Substrate”, Advanced Materials, 28, 7193-7199 (2016). pdf

143 Zheng-Han Wang, Shang-Chi Jiang, Xiang Xiong, Ru-Wen Peng*, and Mu Wang*, “Generation of equal-intensity coherent optical beams by binary geometrical phase on metasurface”, Applied Physics Letters, 108, 261107 (2016). pdf

142 Kun Zhang, Wen-Bo Shi, Di Wang, Yue Xu, Ru-Wen Peng*, Ren-Hao Fan, Qian-Jin Wang, and Mu Wang*, “Couple molecular excitons to surface plasmon polaritons in an organic-dye-doped nanostructured cavity”, Applied Physics Letters, 108, 193111 (2016). pdf

141 Di Wang, Jing-Ning Li, Yu Zhou, Di-Hu Xu, Xiang Xiong, Ru-Wen Peng, and Mu Wang*, “Van der Waals epitaxy of ultrathin a-MoO3 sheets on mica substrate with single-unit-cell thickness”, Applied Physics Letters, 108, 053107 (2016). pdf

140 Fei Chen, Fan Wang, Fei Jia, Jingning Li, Kai Liu, Sunxiang Huang, Zhongzhi Luan, Di Wu, Yanbin Chen, Jianmin Zhu, Ru-Wen Peng*, and Mu Wang*, “Periodic magnetic domains in single-crystalline cobalt filament arrays”, Physical Review B, 93, 054405 (2016). pdf

139 Kun Zhang, Yue Xu, T. Y. Chen, Hao Jing, W. B. Shi, Bo Xiong, R. W. Peng*, and Mu Wang*, “Multimode photon-exciton coupling in an organic-dye-attached photonic quasicrystal”, Optics Letters, 41, 5740-5743 (2016). pdf

138 Zhi-Yong Jia, Jing-Ning Li, Hong-Wei Wu, Cheng Wang, Tian-Yong Chen, Ru-Wen Peng*, and Mu Wang, “Dipole coupling and dual Fano resonances in a silicon nanodimer”, Journal of Applied Physics, 119, 074302 (2016). pdf

137 R. L. Zhang, L. Damewood, C. Y. Fong, L. H. Yang, R. W. Peng, and C. Felser, “A half-metallic half-Heusler alloy having the largest atomic-like magnetic moment at optimized lattice constant”, AIP Advances, 6, 115209 (2016). pdf

2015

136 R. H. Fan, Y. Zhou, X. P. Ren, R. W. Peng*, S. C. Jiang, D. H. Xu, X. Xiong, X. R. Huang*, and Mu Wang*, “Freely tunable broadband polarization rotator for terahertz waves”, Advanced Materials, 27(7), 1201-1206 (2015). pdf

135 D. X. Qi*, Y. Q. Deng, D. H. Xu, R. H. Fan, R. W. Peng*, Z. G. Chen, M. H. Lu, X. R. Huang, and Mu Wang, “Broadband enhanced transmission of acoustic waves through serrated metal gratings”, Applied Physics Letters, 106, 011906 (2015). pdf

134 X. P. Ren, R. H. Fan*, R. W. Peng*, X. R. Huang*, D. H. Xu, Yu Zhou, and Mu Wang, “Nonperiodic metallic gratings transparent for broadband terahertz waves”, Physical Review B, 91, 045111 (2015). pdf

133 Shang-Chi Jiang, Xiang Xiong, Yuan-Sheng Hu, Sheng-Wei Jiang, Yu-Hui Hu, Di-Hu Xu, Ru-Wen Peng*, and Mu Wang*, “High-efficiency generation of circularly polarized light via symmetry-induced anomalous reflection”, Physical Review B, 91, 1235426 (2015). pdf

132 H. W. Wu, F. Wang, Y. Q. Dong, F. Z. Shu, K. Zhang, R. W. Peng,* X. Xiong, and Mu Wang, “Cavity modes with optical orbital angular momentum in a metamaterial ring based on transformation optics”, Optics Expresss, 23, 32087-32097 (2015). pdf

131 W. B. Shi, R. H. Fan, K. Zhang, D. H. Xu, X. Xiong, R. W. Peng*, and Mu Wang,“ Broadband light trapping and absorption of thin-film silicon sandwiched by trapezoidal surface and silver grating ”, Journal of Applied Physics, 117, 065104 (2015). pdf

130 R. H. Fan, R. W. Peng*, X. R. Huang, and Mu Wang,“ Making structured metals transparent for ultrabroadband electromagnetic waves and acoustic waves”, Annals of Physics, 358, 5-19 (2015). pdf

2014

129 L. S. Cao*, D. X. Qi, R. W. Peng*, Mu Wang, and P. Schmelcher, “Phononic frequency combs through nonlinear resonances”, Physical Review Letters, 112, 075505 (2014). pdf

128 S. C. Jiang, X. Xiong, Y. S. Hu, Y. H. Hu, G. B. Ma, R. W. Peng, C. Sun, and Mu Wang*, “Controlling the Polarization State of Light with a Dispersion-Free Metastructure”, Physical Review X, 4, 021026 (2014). pdf

127 Y. Zhou, Y. Q. Dong, R. H. Fan, Q. Hu, R. W. Peng*, and Mu Wang,“Asymmetric transmission of terahertz waves through a graphene-loaded metal grating ”, Applied Physics Letters, 105, 041114 (2014). pdf

126 X. R. Huang*, R. W. Peng*, T. Gog, D. P. Siddons, and L. Assoufid, “Realizing in-plane surface diffraction by x-ray multiple-beam diffraction with large incidence angle”, Applied Physics Letters, 105, 181903 (2014). pdf

125 X. Xiong, Y. S. Hu, S. C. Jiang, Y. H. Hu, R. H. Fan, G. B. Ma, D. J. Shu, R. W. Peng, and Mu Wang*, “ Metallic stereostructured layer: An approach for broadband polarization state manipulation”, Applied Physics Letters, 105, 201105 (2014). pdf

124 K. Zhang, C. Wang, L. Qin, R. W. Peng*, D. H. Xu, X. Xiong, and Mu Wang, “ Dual-mode electromagnetically induced transparency and slow light in a terahertz metamaterial”, Optics Letters, 39, 3539 (2014). pdf

123 Di-Hu Xu, Kun Zhang, Ming-Rui Shao, Hong-Wei Wu, Ren-Hao Fan, Ru-Wen Peng*, and Mu Wang*, “Band modulation and in-plane propagation of surface plasmons in composite nanostructures”, Optics Expresss, 22, 25700-25709 (2014). pdf

122 Y. Zhou, C. Wang, D. H. Xu, R. H. Fan, K. Zhang, R. W. Peng*, Q. Hu and Mu Wang, “Tuning the dispersion relation of a plasmonic waveguide via graphene contact”, Europhysics Letters, 107, 34007 (2014). pdf

121 Y. Zhou, Y. Q. Dong, K. Zhang, R. W. Peng*, Q. Hu and Mu Wang, “Non-reciprocal transmission of terahertz waves through a photonic crystal cavity with graphene”, Europhysics Letters, 107, 54001 (2014). pdf

120 C. Wang, Z. Y. Jia, K. Zhang, Y. Zhou, R. H. Fan, X. Xiong, and R. W. Peng*, “Broadband optical scattering in coupled silicon nanocylinders”, Journal of Applied Physics, 115, 244312 (2014). pdf

2013

119 Xiang Xiong, Shang-Chi Jiang, Yu-Hui Hu, Ru-Wen Peng, and Mu Wang* ,“Structured metal film as a perfect absorber”, Advanced Materials, 25, 3994-4000 (2013). pdf

118 Q. Hu, D. H. Xu, Y. Zhou, R. W. Peng*, R. H. Fan, N. X. Fang, Q. J. Wang, X. R. Huang, and Mu Wang*, “Position-sensitive spectral splitting with a plasmonic nanowire on silicon chip”, Scientific Reports, 3, 3095 (2013). pdf

117 R. L. Zhang*, H. T. Gao, Y. Zhou, R. H. Fan, D. X. Qi, R. W. Peng*, R. S. Huang, and Mu Wang, “Multiple Dirac points and perfect transmission in graphene with a dimerlike potential”, Applied Physics Letters, 103, 121605 (2013). pdf

116 X. C. Chen, Y. W. Wu, Y. H. Hu, H. M. Li, R. W. Peng, X. P. Hao, and Mu Wang*, “Fabrication of stereo metallic resonant structures with polymer droplets as template”, Applied Physics Letters, 102, 021904 (2013). pdf

115 R. H. Fan, J. Li, R. W. Peng*, X. R. Huang*, D. X. Qi, D. H. Xu, X. P. Ren, and Mu Wang*, “ Oblique metal gratings transparent for broadband terahertz waves”, Applied Physics Letters, 102, 171904 (2013). pdf

114 R. H. Fan, L. H. Zhu, R. W. Peng*, X. R. Huang*, D. X. Qi, X. P. Ren, Q. Hu, and Mu Wang*, “ Broadband antireflection and light-trapping enhancement of plasmonic solar cells”, Physical Review B, 87, 195444 (2013). pdf

113 L. Qin, K. Zhang, R.W. Peng*, X. Xiong, W. Zhang, X. R. Huang, and Mu Wang*,“Optical-magnetism-induced transparency in a metamaterial”, Physical Review B, 87, 125136 (2013). pdf

112 M. Liu, G. B. Ma, X. Xiong, Z. W. Wang, R. W. Peng, J. G. Zheng, D. J. Shu, Z. Zhang, and Mu Wang*, “Microscopic view of the role of repeated polytypism in self-organization of hierarchical nanostructures ”, Physical Review B, 87, 085306 (2013) . pdf

111 S. C. Jiang, X. Xiong, P. Sarriugarte, S. W. Jiang, X. B. Yin, Y. Wang, R. W. Peng, D. Wu, R. Hillenbrand, X. Zhang, and Mu Wang*, “Tuning the polarization state of light via time retardation with a microstructured surface”, Physical Review B, 88, 161104 (2013). pdf

110 X. Xiong, Z. H. Xue, C. Meng, S. C. Jiang, Y. H. Hu, R. W. Peng, and Mu Wang*,“ Polarization-dependent perfect absorbers/reflectors based on a three-dimensional metamaterial”, Physical Review B, 88, 115105 (2013). pdf

109 X. R. Huang*, R. W. Peng*, M. G. Honnicke, and T. Gog, “Fourier coupled-wave diffraction theory of periodic structures and crystals ”, Physical Review A, 87, 063828 (2013). pdf

108 L. H. Zhu, M. R. Shao, R. W. Peng*, R. H. Fan, X. R. Huang, and Mu Wang, “Broadband absorption and efficiency enhancement of an ultra-thin silicon solar cell with a plasmonic fractal”, Optics Expresss, 21(9), A313-A323 (2013). pdf

107 M. Liu, C. Meng, Z. H. Xue, X. Xiong, D. J. Shu, R. W. Peng, Q. Wu, Z. Hu and Mu Wang, “Multi-tip nano-prisms: Controlled growth and emission enhancement properties”, Europhysics Letters, 104, 18004 (2013). pdf

106 D. Li, T. Zhang, X. Liu, P. He, Ruwen Peng, Mu Wang, Min Han, Haoshen Zhou, “A hybrid phase-transition model of olivine LiFePO4 for the charge and discharge processes”, Journal of Power Sources, 233, 299-303 (2013). pdf

105 C. Meng, R. W. Peng*, R. H. Fan, X. R. Huang, and Mu Wang, “ Making structured metals transparent for broadband electromagnetic waves”, Science China Information Sciences, 56, 1-9 (2013). pdf

104 R. H. Fan, D. X. Qi, Q. Hu, L. Qin, R. W. Peng*, and Mu Wang, “Coupling of surface plasmons and excited optical modes in metal/dielectric grating stacks”, Journal of Nanoscience and Nanotechnology, 13, 1017-1021 (2013). pdf

103 Q. Hu, L. Y. Sun, D. H. Xu, Y. Zhou, R. W. Peng*, and Mu Wang, “Tunable multimode and narrowband in a photonic quasicrystal waveguide”, Journal of Nanoscience and Nanotechnology, 13(2), 873-877 (2013). pdf

102 D. L. Wang, Q. Hu, Y. Q. Dong, and R. W. Peng*, “A detector of an invisible carpet cloaking structure”, Journal of Nanoscience and Nanotechnology, 13(2), 984-8 (2013). pdf

2012

101 X. R. Huang*, D. P. Siddons, A. T. Macrander, R. W. Peng*, and X. S. Wu, “Multicavity x-ray Fabry-Perot resonance with ultrahigh resolution and contrast”, Physical Review Letters, 108, 224801 (2012). pdf

100 R. H. Fan, Ru-Wen Peng*, Xian-Rong Huang*, Jia Li, Yongmin Liu, Qing Hu , Mu Wang*, and Xiang Zhang, “ Transparent metals for ultrabroadband electromagnetic waves”, Advanced Materials, 24, 1980-1986 (2012). pdf

99 Xiao-Chun Chen, Hong-Min Li, Fei Fang, Yuan-Wei Wu, Mu Wang*, Guo-Bin Ma, Yu-Qiang Ma, Da-Jun Shu, and Ru-Wen Peng, “Confinement-induced ordering in dewetting and phase separation of polymer blend films”, Advanced Materials, 24, 2637-2641 (2012). pdf

98 Dong-Xiang Qi, Ren-Hao Fan, Ru-Wen Peng*, Xian-Rong Huang*, Ming-Hui Lu, Xu Ni, Qing Hu, and Mu Wang, “Multiple-band transmission of acoustic wave through metallic gratings ”, Applied Physics Letters, 101, 061912 (2012). pdf

97 Dong-Xiang Qi, Ru-Wen Peng*, Lu-Shuai Cao, Qing Hu, Rui-Li Zhang, Xian-Rong Huang, and Mu Wang, “ Multimode quantized thermal conductance tuned by electric field in a composite polymer”, Physical Review B, 85, 214123 (2012). pdf

96 Qing Hu, D. H. Xu, R. W. Peng*, Yu Zhou, Q. L. Yang, and Mu Wang*, “ Tune the "rainbow" trapped in a multilayered waveguide”, Europhysics Letters, 99, 57007 (2012). pdf

95 R. L. Zhang, J. Li, D. X. Qi, Qing Hu, R. W. Peng*, R. S. Huang, and Mu Wang, “ Tunable energy bands and spin filtering in two-dimensional superlattices with spin-orbit interaction”, Journal of Applied Physics, 111, 07C325 (2012). pdf

2011

94 X. Xiong, X. C. Chen, Mu Wang*, Ru-Wen Peng, D. J. Shu, and Cheng Sun, “Optically nonactive assorted helix array with interchangeable magnetic/electric resonance ”, Applied Physics Letters, 98, 181905 (2011). pdf

93 X. Xiong, Z. W. Wang, S. J. Fu, Mu Wang*, R. W. Peng, X. P. Hao, and Cheng Sun, “Realization of negative refractive index with double-layered H-shaped resonator array ”, Applied Physics Letters, 99 (2011). pdf

92 J. Z. Zhao, D. L. Wang, R. W. Peng*, Q. Hu, and Mu Wang, “ Watching outside while under a carpet cloak of invisibility”, Physical Review E, 84, 046607 (2011). pdf

91 D. Li, L. Qin, X. Xiong, R. W. Peng*, Q. Hu, G. B. Ma, H. S. Zhou, and Mu Wang, “Exchange of electric and magnetic resonances in multilayered metal/dielectric nanoplates”, Optics Expresss, 19(23), 22942 (2011). pdf

90 R. L. Zhang, D. X. Qi, R. W. Peng*, J. Li, R. H. Fan, R. S. Huang, and Mu Wang, “Magnetic-flux-induced persistent currents in nonlinear mesoscopic rings”, Journal of Applied Physics, 109 (2011). pdf

89 J. S. Zhang, R. L. Zhang*, Qing Hu, R. H. Fan, and R. W. Peng*, “ Tunable microwave multiband filters based on a waveguide with antiferromagnetic and dielectric sandwiches”, Journal of Applied Physics, 109, 07A305 (2011). pdf

2010

88 Xian-Rong Huang*, Ru-Wen Peng*, and Ren-Hao Fan, “ Making metals transparent for white light by spoof surface plasmons”, Physical Review Letters, 105(24), 243901 (2010). pdf

87 X. P. Huang, Z. L. Shi, Mu Wang,* M. Konoto, H. S. Zhou, G. B. Ma, Di Wu, R. W. Peng, and N. B. Ming, “ Formation of regular magnetic domains on spontaneously nanostructured cobalt filaments”, Advanced Materials, 22(24), 2711-2716 (2010). pdf

86 Qing Hu, Jin-Zhu Zhao, Ru-Wen Peng*, Feng Gao, Rui-Li Zhang, and Mu Wang, “ Rainbow" trapped in a self-similar coaxial optical waveguide”, Applied Physics Letters, 96(16), 161101 (2010). pdf

85 X. Xiong, W. H. Sun, Y. J. Bao, Mu Wang*, R. W. Peng*, Cheng Sun, X. Lu, J. Shao, Z. F. Li, and N. B. Ming, “Construction of a chiral metamaterial with a U-shaped resonator assembly ”, Physical Review B, 81(7), 075119 (2010). pdf

84 Y. Y. Weng, Bo Zhang, S. J. Fu, Mu Wang*, R. W. Peng, G. B. Ma, D. J. Shu, and N. B. Ming, “ Self-templating growth of copper nanopearl-chain arrays in electrodeposition”, Physical Review E, 81(5), 051607 (2010). pdf

83 Jia Li, Ruili Zhang, De Li, Ruwen Peng*, and Mu Wang, “Electronic transmission and switch effect in kappa-component Fibonacci nanowires”, Journal of Nanoscience and Nanotechnology, 10, 7506-7510 (2010). pdf

82 Ruili Zhang, Jiashu Zhang, Jia Li, Qing Hu, Ruwen Peng*, and Mu Wang, “Magnetically Tunable Spin Filtering in Semiconductor Nanowires”, Journal of Nanoscience and Nanotechnology, 10(11), 7362-7365 (2010). pdf

81 Feng Gao, Jinzhu Zhao, Dongxiang Qi, Qing Hu, Ruili Zhang, and Ruwen Peng*, “Excitation of surface plasmons in subwavelength nanoaperatures with different geometries”, Journal of Nanoscience and Nanotechnology, 10, 7324-7327 (2010). pdf

80 De Li, Ling Qin, Dong-Xiang Qi, Feng Gao, Ru-Wen Peng*, Jin Zou, Qian-Jin Wang, and Mu Wang, “Tunable electric and magnetic resonances in multilayered metal/dielectric nanoplates at optical frequencies”, Journal of Physics D: Applied Physics, 43, 345102 (2010). pdf

79 Jiashu Zhang, Jinzhu Zhao, R. W. Peng*, Jia Li, Ruili Zhang, and Mu Wang, “Tunable Microwave Filters and Phase Shifters Based on Ferromagnetic/Dielectric Multilayer Waveguides”, Japanese Journal of Applied Physics, 49, 033004 (2010). pdf

78 X. R. Huang, and R. W. Peng,“General mechanism involved in subwavelength optics of conducting microstructures: charge-oscillation-induced light emission and interference”, Journal of the Optical Society of America A, 27(4), 718-729 (2010). pdf

77 D. Li, Z.J. Zhang, F. Gao, Z. Wang, R.H. Fan, L.Y. Sun, R.L. Zhang, and R.W. Peng*, “ Infrared antenna array based on nano-holes in ultrathin metallic films”, The European Physical Journal Applied Physics, 51, 30602 (2010). pdf

76 R.L. Zhang, J.S. Zhang, D. Li, J. Li, and R. W. Peng*, “Symmetry-induced perfect transmission and inverse magnetoresistance in cascade junctions of ferromagnet and semiconductor”, The European Physical Journal Applied Physics, 50, 10601 (2010). pdf

75 R Jin, M. H. Pan, X. B. He, Guorong Li, De Li, Ru-Wen Peng, J. R. Thompson, B. C. Sales, A. S. Sefat, M. A. McGuire, D. Mandrus, J. F. Wendelken, V. Keppens, and E. W. Plummer, “Electronic, magnetic and optical properties of two Fe-based superconductors and related parent compounds”, Superconductor Science and Technology, 23, 054005 (2010). pdf

2009

74 B. Zhang, Y. Y. Weng, X. P. Huang, Mu Wang*, R. W. Peng, N. B. Ming, B. Yang, Nan Lu, and L. F. Chi, “Creating In-Plane Metallic-Nanowire Arrays by Corner-Mediated Electrodeposition”, Advanced Materials, 21, 3576-3580 (2009). pdf

73 Z. Wu, H. M. Li, Xiang Xiong, G. B. Ma, Mu Wang, R. W. Peng, and N. B. Ming, “Electrodeposition of single-crystalline silver pearl chains”, Applied Physics Letters, 94, 041120 (2009). pdf

72 Feng Gao, De Li, Ru-Wen Peng*, Qing Hu, Kuang Wei, Q. J. Wang, Y. Y. Zhu, and Mu Wang, “Tunable interference of light behind subwavelength apertures”, Applied Physics Letters, 95, 011104 (2009). pdf

71 Wei Cai, Xiaomei Lu*, De Li, Huifeng Bo, Ruwen Peng, Xiaobo Wu, Yunfei Liu, and Jinsong Zhu, “Optical properties of Bi3.15Nd0.85Ti3O12 nanostructures”, Applied Physics Letters, 94, 092906 (2009). pdf

70 X. Xiong, W. H. Sun, Y. J. Bao, R. W. Peng*, Mu Wang*, Cheng Sun*, X. Lu, J. Shao, Z. F. Li, and N. B. Ming, “Switching the electric and magnetic responses in a metamaterial”, Physical Review B, 80, 201105 (2009). pdf

69 X. P. Huang, Wei Han, Z. L. Shi, Di Wu, Mu Wang, R. W. Peng, and N. B. Ming, “Electrodeposition of periodically nanostructured straight cobalt filament arrays”, The Journal of Physical Chemistry C, 113(5), 1694-1697 (2009). pdf

68 Jia Li, R. L. Zhang*, R. W. Peng*, Xin Wu, De Li, Qing Hu, Yan Qiu, and Mu Wang, “Self-similar bandgap structure and spin-polarized transport in quasiperiodic cascade junctions of ferromagnet and semiconductor”, Journal of Applied Physics, 105, 07D537 (2009). pdf

67 W. H. Sun, Ye Lu, R. W. Peng, L. S. Cao, De Li, Xin Wu, and Mu Wang, “Omnidirectional transparency induced by matched impedance in disordered metamaterials”, Journal of Applied Physics, 106, 013104 (2009). pdf

66 R. L. Zhang, W. H. Sun, R. W. Peng*, L. S. Cao, X. Wu, Z. Wang, D. Li, and Mu Wang, “Multiple delocalization of electrons and persistent currents in random n-mer mesoscopic rings”, Journal of Nanoscience and Nanotechnology, 9, 1631-1634 (2009). pdf

65 Z. H. Tang, Z. Wang, Z. J. Zhang, R. W. Peng*, X. Wu, D. Li, W. H. Sun, F. Gao, and Mu Wang, “The coherence effect of surface plasmons on optical transmission in silver subwavelength hole arrays”, Journal of Nanoscience and Nanotechnology, 9, 985-989 (2009). pdf

64 Xin Wu, R. W. Peng, De Li, Ruili Zhang, Renhao Fan, Claudio Ferrari1, and Mu Wang, “Thermally Tuning Terahertz Surface Plasmon Polaritons in Corrugated Semiconductor Films”, Japanese Journal of Applied Physics, 48, 042302 (2009). pdf

2008

63 Y. J. Bao, R. W. Peng*, D. J. Shu, Mu Wang*, X. Lu, J. Shao, W. Lu,and N. B. Ming, “Role of interference between localized and propagating surface waves on the extraordinary optical transmission through a subwavelength-aperture array”, Physical Review Letters, 101, 087401 (2008). pdf

62 L. S. Cao, R. W. Peng*, and Mu Wang, “Multimode quantized thermal conductance tuned by external field in a quantum wire”, Applied Physics Letters, 93, 011908 (2008). pdf

61 Y. J. Bao, H. M. Li, X. C. Chen, R. W. Peng, Mu Wang, X. Lu, J. Shao, and N. B. Ming, “Tailoring the resonances of surface plasmas on fractal-featured metal film by adjusting aperture configuration”, Applied Physics Letters, 92, 151902 (2008). pdf

60 Z. J. Zhang, R. W. Peng*, Z. Wang, F. Gao, X. R. Huang, W. H. Sun, Q. J. Wang, and Mu Wang, “Plasmonic antenna array at optical frequency made by nanoapertures”, Applied Physics Letters, 93, 171110 (2008). pdf

59 L. S. Cao, R. W. Peng, De Li, Xin Wu, D. X. Qi, Feng Gao, and Mu Wang, “Tunable phonon resonances and thermal conductance in weakly nonlinear disordered systems with short-range correlation”, Europhysics Letters, 83, 66001 (2008). pdf

58 R. L. Zhang, Z. J. Zhang, R. W. Peng*, X. Wu, De Li, Jia Li, and L. S. Cao, “Spin-dependent bandgap structure and resonant transmission of electrons in ferromagnetic metal/semiconductor cascade junctions”, Journal of Applied Physics, 103, 07B727 (2008). pdf

57 M. Bosi, G. Attolini, C. Ferrari, C. Frigeri, J. C. Rimada Herrera, E. Gombia, C. Pelosi, R. W. Peng, “MOVPE growth of homoepitaxial germanium”, Journal of Crystal Growth, 310, 3282-3286 (2008). pdf

2007

56 Y. J. Bao, Bo Zhang, Zhe Wu, J. W. Si, Mu Wang, and R. W. Peng, X. Lu, J. Shao, Z. F. Li, X. P. Hao and Nai-Ben Ming, “Surface-plasmon-enhanced transmission through metallic film perforated with fractal-featured aperture array”, Applied Physics Letters, 90, 251914 (2007). pdf

55 Z. H. Tang, R. W. Peng*, Z. Wang, X. Wu, Y. J. Bao, Q. J. Wang, Z. J. Zhang, W. H. Sun, and Mu Wang, “Coupling of surface plasmons in nanostructured metal/dielectric multilayers with subwavelength hole arrays ”, Physical Review B, 76, 195405 (2007). pdf

54 Z. Zhao, F. Gao, R. W. Peng*, L. S. Cao, D. Li, Z. Wang, X. P. Hao, Mu Wang, and C. Ferrari, “Localization-delocalization transition of photons in one-dimensional random n-mer dielectric systems”, Physical Review B, 75, 165117 (2007). pdf

53 X. R. Huang, R. W. Peng, Z. Wang, F. Gao, and S. S. Jiang, “Charge-oscillation-induced light transmission through subwavelength slits and holes”, Physical Review A, 76, 035802 (2007). pdf

52 Tao Liu, S. Wang, Z. L. Shi, G. B. Ma, Mu Wang, R. W. Peng, X. P. Hao, and N. B. Ming, “Long-range ordering effect in electrodeposition of zinc and zinc oxide”, Physical Review E, 75, 051606 (2007). pdf

51 D. J. Shu, Mu Wang, Feng Liu, Z. Y. Zhang, R. W. Peng, R. Zhang, and N. B. Ming ,“Nucleation-mediated lateral growth on foreign substrate ”, The Journal of Physical Chemistry C, 111(3), 1071-1075 (2007). pdf

50 M. De Seta, G. Capellini,a_ and F. Evangelisti, C. Ferrari, L. Lazzarini, and G. Salviati, R. W. Peng and S. S. Jiang, “Effect of interlayer strain interaction on the island composition and ordering in Ge/Si(001) island superlattices”, Journal of Applied Physics, 102, 043518 (2007). pdf

49 Wei Pan, Y.W. Mao, D.J. Shu, G.B. Ma, Mu Wang, R.W. Peng, X.P. Hao and N.-B. Ming, “Formation of regular zigzag branch of CsCl crystallites on glass substrate: A new lateral growth mechanism leading to long-range ordering”, Journal of Crystal Growth, 307, 171-176 (2007). pdf

2006

48 R. L. Zhang, R. W. Peng*, L. S. Cao, Z. Wang, Z. H. Tang, X. F. Zhang, Mu Wang, and A. Hu, “Electronic delocalization and resonant transmission in symmetric metallic nanowires”, Applied Physics Letters, 89, 153114 (2006). pdf

47 Y. Y. Weng, J. W. Si, W. T. Gao, Z. Wu, Mu Wang, R. W. Peng, N. B. Ming, “Noise-reduced electroless deposition of arrays of copper filaments”, Physical Review E, 73, 051601 (2006). pdf

46 R. L. Zhang, R. W. Peng*, X. F. Hu, L. S. Cao, X. F. Zhang, Mu Wang, A. Hu, and S. S. Jiang, “Magnetic-flux-induced persistent currents in symmetric-polymer mesoscopic rings”, Journal of Applied Physics, 99, 08F710 (2006). pdf

45 X. F. Zhang, R. W. Peng*, S. S. Kang, L. S. Cao, R. L. Zhang, Mu Wang, and A. Hu, “Tunable high-frequency magnetostatic waves in Thue-Morse antiferromagnetic multilayers”, Journal of Applied Physics, 100, 063911 (2006). pdf

44 Z. Wu, Y. J. Bao, G. W. Yu, Mu Wang, R. W. Peng, V. Fleury, X. P. Hao, and N. B. Ming, “Characterization of periodically nanostructured copper filaments self-organized by electrodeposition”, Journal of Physics: Condensed Matter, 18, 5425-5434 (2006). pdf

2005

43 L. S. Cao, R. W. Peng*, R. L. Zhang, X. F. Zhang, Mu Wang, X. Q. Huang, A. Hu, and S. S. Jiang, “Delocalization of phonons and quantized thermal conductance in a randomn-mer system”, Physical Review B, 72, 214304 (2005). pdf

42 X. F. Hu, R. W. Peng*, L. S. Cao, X. Q. Huang, Mu Wang, A. Hu, and S. S. Jiang, “Magnetic-flux induced persistent currents in quasiperiodic mesoscopic rings”, Journal of Applied Physics, 97, 10B308 (2005). pdf

41 Ye Lu, R. W. Peng*, Z. Wang, Z. H. Tang, X. Q. Huang, Mu Wang, Y. Qiu, A. Hu, S. S. Jiang and D. Feng, “Resonant transmission of light waves in dielectric heterostructures”, Journal of Applied Physics, 97, 123106 (2005). pdf

40 X. F. Zhang, X. Q. Huang, R. W. Peng, G. Q. Wang, and S. Y. Zhang, “Preparation and structural study of mechanical alloyed of co50fe20cu2v8b20”, International Journal of Modern Physics B, 19(15n17), 2775-2775 (2005). pdf

2004

39 Z. Wang, R. W. Peng*, F. Qiu, X. Q. Huang, Mu Wang, A. Hu, S. S. Jiang, and D. Feng, “Selectable-frequency and tunable-Q perfect transmissions of electromagnetic waves in dielectric heterostructures”, Applied Physics Letters, 84, 3969-397 (2004). pdf

38 R. W. Peng, Y. M. Liu, X. Q. Huang, F. Qiu, Mu Wang, A. Hu, S. S. Jiang, D. Feng, L. Z. Ouyang, J. Zou, “Dimerlike positional correlation and resonant transmission of electromagnetic waves in aperiodic dielectric multilayers”, Physical Review B, 69 (2004). pdf

37 Y. Wang, Y. Cao, Mu Wang, S. Zhong, M. Z. Zhang, Y. Feng, R. W. Peng, X. P. Hao, N. B. Ming, “Spontaneous formation of periodic nanostructured film by electrodeposition: Experimental observations and modeling”, Physical Review E, 69, 021607 (2004). pdf

36 F. Qiu, R. W. Peng*, X. Q. Huang, X. F. Hu, Mu Wang, A. Hu, S. S. Jiang and D. Feng, “Omnidirectional reflection of electromagnetic waves on Thue-Morse dielectric multilayers”, Europhysics Letters, 68, 658-663 (2004). pdf

35 M. Z. Zhang, Y. Wang, G. W. Yu, Mu Wang, R. W. Peng, Y. Y. Weng, N. B. Ming, “Formation of copper electrodeposits on an untreated insulating substrate”, Journal of Physics: Condensed Matter, 16, 695-704 (2004). pdf

34 M. Z. Zhang, Mu Wang, Z. Zhang, J. M. Zhu, R. W. Peng, N. B. Ming, “Periodic structures of randomly distributed Cu/Cu2O nanograins and periodic variations of cell voltage in copper electrodeposition”, Electrochimica Acta, 49, 2379-2383 (2004). pdf

2003

33 R. W. Peng, M. Mazzer, and K. Barnham, “Efficiency enhancement of ideal photovoltaic solar cells by photonic excitations in multi-intermediate band structures”, Applied Physics Letters, 83, 770-772 (2003). pdf

32 Y. M. Liu, R. W. Peng*, X. Q. Huang, Mu Wang, A. Hu, and S. S. Jiang, “Resonant scattering in random-polymer chains with inversely symmetric impurities”, Physical Review B, 67 (2003). pdf

31 Sheng Zhong, Yuan Wang, Mu Wang, M. Z. Zhang, Xiao-Bo Yin, R. W. Peng, and Nai-Ben Ming, “Formation of nanostructured copper filaments in electrochemical deposition”, Physical Review E, 67(6), 061601 (2003). pdf

30 F. Qiu, R. W. Peng*, X. Q. Huang, Y. M. Liu, M. Wang, A. Hu, and S. S. Jiang, “Resonant transmission and frequency trifurcation of light waves in Thue-Morse dielectric multilayers”, Europhysics Letters, 63(6), 853 (2003). pdf

29 D. W. Li, Mu Wang, Liu P, R. W. Peng and N. B. Ming, “Spontaneous Correlation of Crystallographic Orientations in Crystallite Aggregation: Physical Origin and its Influence on Pattern Formation”, The Journal of Physical Chemistry B, 107, 96 (2003). pdf

28 S. Tundo, M. Mazzer, L. Nasi, L. Lazzarini, G. Salviati, C. Rohr, P. Abbott, D. B. Bushnell, K. W. J. Barnham, G. Clarke, R. W. Peng, “Electron-beam-induced current and cathodoluminescence characterization of InGaAs strain-balanced multiquantum well photovoltaic cells”, Journal of Applied Physics, 94, 6341-6345 (2003). pdf

27 Y. M. Liu, R. W. Peng*, X. Q. Huang, Mu Wang, A. Hu and S. S. Jiang, “Absence of Suppression in the Persistent Current by Delocalization in Random-dimer Mesoscopic Rings”, Journal of the Physical Society of Japan, 72, 346-351 (2003). pdf

26 Sheng Wang, Ke-Qin Zhang, Qing-Yu Xu, Mu Wang, R.W. Peng, Ze Zhang, and N. B. Ming, “Oscillations in Electrochemical Deposition of Zinc ”, Journal of the Physical Society of Japan, 72, 1574-1580 (2003). pdf

2002

25 R. W. Peng, X. Q. Huang, F. Qiu, Mu Wang, A. Hu, S. S. Jiang, and M. Mazzer, “Symmetry-induced perfect transmission of light waves in quasiperiodic dielectric multilayers”, Applied Physics Letters, 80, 3063-3065 (2002). pdf

24 Y. M. Liu, R. W. Peng*, G. J. Jin, X. Q. Huang, Mu Wang, A. Hu and S. S. Jiang, “Persistent currents in k-component Fibonacci mesoscopic rings threaded by a magnetic flux”, Journal of Physics: Condensed Matter, 14(30), 7253 (2002). pdf

23 Y. Li, R. W. Peng*, G. Jin. Jin, Mu Wang, X. Q. Huang, A. Hu and S. S. Jiang, “Persistent currents in one-dimensional aperiodic mesoscopic rings”, The European Physical Journal B, 25, 497-503 (2002). pdf

2001

22 Mu Wang, S. Zhong, X.B. Yin, J.M. Zhu, R. W. Peng, Y. Wang, K.Q. Zhang, and N. B. Ming, “Nanostructured copper filaments in electrochemical deposition”, Physical Review Letters, 86, 3827-3830 (2001). pdf

21 X. Q. Huang, S. S. Jiang, R. W. Peng and A. Hu, “Perfect transmission and self-similar optical transmission spectra in symmetric Fibonacci-class multilayers”, Physical Review B, 63 (2001). pdf

20 Sheng Zhong, Mu Wang, X. B. Yin, J. M. Zhu, R.W. Peng, Y. Wang, and N. B. Ming, “Formation of arrays of straight copper wires on solid substrate by electrodeposition”, Journal of the Physical Society of Japan, 70(6), 1452-1455 (2001). pdf

19 Ke-Qin Zhang, Mu Wang, Ru-Wen Peng, Yuming Xiao, and Nai-ben Ming, “H3O+-dependent morphological change in the electrochemical deposition of iron”, Physics Letters A, 278(5), 286-292 (2001). pdf

18 X. Q. Huang, R. W. Peng, F. Qiu, S. S. Jiang, and A. Hu, “Delocalization in disordered chains with random symmetrical impurities”, The European Physical Journal B, 23(3), 275-281 (2001). pdf

17 Y. Li, R. W. Peng*, G. J. Jin, M. Wang, A. Hu, and S. S. Jiang, “Quantum behavior in one-dimensional mesoscopic Thue-Morse rings”, Ferroelectrics, 252(1), 155-162 (2001). pdf

2000

16 R. W. Peng, G. J. Jin, Mu Wang, A. Hu, S. S. Jiang, and D. Feng, “Electronic transport in k-component Fibonacci quantum waveguides”, Journal of Physics: Condensed Matter, 12, 5701 (2000). pdf

15 R. W. Peng, Mu Wang, G. J. Jin, Y. Li, A. Hu, and S. S. Jiang, "Quantum transport and its scaling properties in Thue-Morse Waveguides" , Journal of the Physical Society of Japan, 69, 3360 (2000). pdf

1999

14 R. W. Peng, G. J. Jin, Mu Wang, A. Hu, S. S. Jiang, and D. Feng, “Interface optical phonons in k-component Fibonacci dielectric multilayers”, Physical Review B, 59(5), 3599 (1999). pdf

13 Mu Wang, Xiao-Bo Yin, Peter G. Vekilov, Ru-Wen Peng, and Nai-Ben Ming, “Intrinsic instability of the concentration field in diffusion-limited growth and its effect on crystallization”, Physical Review E, 60(2), 1901 (1999). pdf

12 P. Yang, U. Klemradt, Y Tao, J. Peisl, R. W. Peng, A. Hu, and S. S. Jiang, “Long-term stability of a quasiperiodic Ta/Al multilayer: Disintegration at room temperature analyzed by grazing angle x-ray scattering and photoelectron spectroscopy”, Journal of applied physics, 86(1), 267-274 (1999). pdf

1998

11 R. W. Peng, Mu Wang, A. Hu, S. S. Jiang, G. J. Jin, and D. Feng, “Photonic localization in one-dimensional k-component Fibonacci structures”, Physical Review B, 57(3), 1544 (1998). pdf

1997

10 S. S. Jiang, R. W. Peng, A.Hu, J.Zou, D.J.H. Cockayne and A. Sikorski, "Diffraction behaviour of three-component Fibonacci Ta/Al multilayer films", Journal of Applied Crystallography, 30, 114 (1997). pdf

1996

9 Mu Wang, Cheng Sun, R. W. Peng, Nai-ben Ming, Jan van Esch, Helmut Ringsdorf, Piet Bennema, “Dynamic behaviors of fractal-like domains in monolayers”, Physical Review E, 53(6), 6121 (1996). pdf

8 Mu Wang,Cheng Sun,W.J.P.Enckevort,Jan van Esch,G.Wildburg, R. W. Peng, Nai-ben Ming, P. Bennema, H. Ringsdorf, R. J. M. Nolte, Bennema, P., Ringsdorf, H., “Pattern formations in lipid monolayers under illumination”, Physical Review E, 53(3), 2580 (1996). pdf

1995

7 R. W. Peng, Mu Wang, An Hu, S. S. Jiang, G. J. Jin and Duan Feng,“Characterization of the diffraction spectra of one-dimensional k-component Fibonacci structures”, Physical Review B, 52(18), 13310 (1995). pdf

6 Mu Wang, R. W. Peng, Nai-Ben Ming, W. J. P. van Enckevort, P. Bennema, J. van Esch, H. Ringsdorf, R. J. M. Nolte, “Illumination-related pattern formations in lipid monolayers”, Physics Letters A, 203(4), 235-241 (1995). pdf

1993

5 A. Hu, Z. W. Wen, S. S. Jiang, R. W. Peng, D. Feng, “One-dimensional k-component Fibonacci structures”, Physical Review B, 48(2), 829 (1993). pdf

4 Hua Xia, X.K.Zhang, An Hu, S.S. Jiang, R. W. Peng, Wei Zhang, Duan Feng, “Effective elastic constants and phonon spectrum in metallic ta/al quasiperiodic superlattices”, Physical Review B Condensed Matter, 47(7), 3890 (1993). pdf

3 Nai-ben Ming, Mu Wang, and Ru-Wen Peng,“Nucleation-limited aggregation in fractal growth”, Physical Review E, 48(1), 621 (1993). pdf

1992

2 R. W. Peng, A. Hu, S. S. Jiang, C. S. Zhang and D. Feng, “Structural characterization of three-component Fibonacci Ta/Al multilayer films”, Physical Review B, 46(12), 7816 (1992). pdf

1991

1 R. W. Peng, A. Hu and S. S. Jiang, “Study on quasiperiodic Ta/Al multilayer films by x-ray diffraction”, Applied physics letters, 59(20), 2512-2514 (1991). pdf