Broadband transparent optical phase change materials for high-performance nonvolatile photonics Y Zhang, JB Chou, J Li, H Li, Q Du, A Yadav, S Zhou, MY Shalaginov, ... Nature communications 10 (1), 4279, 2019 | 547 | 2019 |
Nonvolatile electrically reconfigurable integrated photonic switch enabled by a silicon PIN diode heater J Zheng, Z Fang, C Wu, S Zhu, P Xu, JK Doylend, S Deshmukh, E Pop, ... Advanced Materials 32 (31), 2001218, 2020 | 218 | 2020 |
Ultra-thin high-efficiency mid-infrared transmissive Huygens meta-optics L Zhang, J Ding, H Zheng, S An, H Lin, B Zheng, Q Du, G Yin, J Michon, ... Nature communications 9 (1), 1481, 2018 | 213 | 2018 |
Ultra-low-energy programmable non-volatile silicon photonics based on phase-change materials with graphene heaters Z Fang, R Chen, J Zheng, AI Khan, KM Neilson, SJ Geiger, DM Callahan, ... Nature Nanotechnology 17 (8), 842-848, 2022 | 140 | 2022 |
Non-Volatile Reconfigurable Integrated Photonics Enabled by Broadband Low-Loss Phase Change Material Z Fang, J Zheng, A Saxena, J Whitehead, Y Chen, A Majumbdar Advanced Optical Materials, 2021 | 138 | 2021 |
Non-volatile reconfigurable silicon photonics based on phase-change materials Z Fang, R Chen, J Zheng, A Majumdar IEEE Journal of Selected Topics in Quantum Electronics 28 (3: Hybrid …, 2021 | 81 | 2021 |
Broadband transparent optical phase change materials Y Zhang, J Li, J Chou, Z Fang, A Yadav, H Lin, Q Du, J Michon, Z Han, ... CLEO: Science and Innovations, JTh5C. 4, 2017 | 67 | 2017 |
Black phosphorus mid-infrared light-emitting diodes integrated with silicon photonic waveguides TY Chang, Y Chen, DI Luo, JX Li, PL Chen, S Lee, Z Fang, WQ Li, ... Nano Letters 20 (9), 6824-6830, 2020 | 57 | 2020 |
Broadband nonvolatile electrically controlled programmable units in silicon photonics R Chen, Z Fang, JE Froch, P Xu, J Zheng, A Majumdar ACS Photonics 9 (6), 2142-2150, 2022 | 53 | 2022 |
Non-volatile electrically programmable integrated photonics with a 5-bit operation R Chen, Z Fang, C Perez, F Miller, K Kumari, A Saxena, J Zheng, ... Nature Communications 14 (1), 3465, 2023 | 48 | 2023 |
Opportunities and challenges for large-scale phase-change material integrated electro-photonics R Chen, Z Fang, F Miller, H Rarick, JE Froch, A Majumdar ACS Photonics 9 (10), 3181-3195, 2022 | 35 | 2022 |
Ultra-low mode volume on-substrate silicon nanobeam cavity J Zhou, J Zheng, Z Fang, P Xu, A Majumdar Optics Express 27 (21), 30692-30699, 2019 | 33 | 2019 |
Waveguide-integrated van der waals heterostructure mid-infrared photodetector with high performance PL Chen, Y Chen, TY Chang, WQ Li, JX Li, S Lee, Z Fang, M Li, ... ACS Applied Materials & Interfaces 14 (21), 24856-24863, 2022 | 20 | 2022 |
Photonic topological baths for quantum simulation A Saxena, Y Chen, Z Fang, A Majumdar ACS photonics 9 (2), 682-687, 2022 | 17 | 2022 |
Roadmap for phase change materials in photonics and beyond P Prabhathan, KV Sreekanth, J Teng, JH Ko, YJ Yoo, HH Jeong, Y Lee, ... Iscience 26 (10), 2023 | 14 | 2023 |
Helicity-dependent continuous varifocal metalens based on bilayer dielectric metasurfaces Y Wang, L Chen, S Tang, P Xu, F Ding, Z Fang, A Majumdar Optics Express 29 (24), 39461-39472, 2021 | 14 | 2021 |
1D Self-Healing Beams in Integrated Silicon Photonics Z Fang, R Chen, A Ryou, A Majumdar ACS Photonics 8 (7), 2139−2147, 2021 | 13 | 2021 |
High-speed and energy-efficient non-volatile silicon photonic memory based on heterogeneously integrated memresonator B Tossoun, D Liang, S Cheung, Z Fang, X Sheng, JP Strachan, ... Nature Communications 15 (1), 551, 2024 | 12 | 2024 |
Dual band computational infrared spectroscopy via large aperture meta-optics JE Fröch, S Colburn, A Zhan, Z Han, Z Fang, A Saxena, L Huang, ... ACS Photonics 10 (4), 986-992, 2022 | 10 | 2022 |
Non-volatile phase-change materials for programmable photonics Z Fang, R Chen, V Tara, A Majumdar Science Bulletin 68 (8), 783-786, 2023 | 9 | 2023 |