[1] Guanzhong Pan, Meng Xun, et al., Harnessing the capabilities of VCSELs: unlocking the potential for advanced integrated photonic devices and system, Light Science & Applications 13(1):229, 2024.
[3]Meng Xun, Guanzhong Pan*, et al., High Single Fundamental-Mode Output Power From 795 nm VCSELs With a Long Monolithic Cavity, IEEE Electron Device Letters, 44(7): 1144-1147, 2023.
[4] Meng Xun, Guanzhong Pan*, et al., Longitudinal Multi-Cavity Coupled VCSELs with Narrow Linewidth and High Single Mode Power for Quantum Sensing, IEEE/OPTICA Journal of Lightwave Technology, 2024.
[5] Guanzhong Pan, Meng Xun, et al., Extrinsic Parasitics and Design Considerations on Modulation Bandwidth of 850-nm Vertical Cavity Surface Emitting Lasers, IEEE Transactions on Electron Devices, 69(9): 4992-4997, 2022.
[6]Guanzhong Pan, Meng Xun, et al., High-Compactness Bessel Beam Emitters Based on Vertical-Cavity Surface-Emitting Lasers, IEEE Transactions on Electron Devices, 69(5):2508-2513, 2022.
[7]Guanzhong Pan, Meng Xun, et al., Two-dimensional coherent VCSEL arrays with configurable beam emissions,Optics & Laser Technology,Volume 149, 107809, 2022.
[8]Guanzhong Pan, Meng Xun, et al., High Slope Efficiency Bipolar Cascade 905nm Vertical Cavity Surface Emitting Laser, IEEE Electron Device Letters, 42(9):1342-1345, 2021.
[9]Guanzhong Pan et al., In-Phased Implant-Defined Hexagonal VCSEL Array With Near-Diffraction-Limited Beam, IEEE Photonics Technology Letters, 31(20): 1647-1649, 2019.
[10]Guanzhong Pan, Chen Xu, et al., Ultra-compact electrically controlled beam steering chip based on coherently coupled VCSEL array directly integrated with optical phased array, Opt. Express 27, 13910-13922, 2019.
[11]Guanzhong Pan, Yiyang Xie, et al., Analysis of optical coupling behavior in two-dimensional implant-defined coherently coupled vertical-cavity surface-emitting laser arrays, Photon. Res. 6, 1048-1055, 2018.
[12]Guanzhong Pan, Chen Xu, et al., Dependence of Beam Quality on Optical Intensity Asymmetry in In-Phase Coherently Coupled VCSEL Array, IEEE Journal of Quantum Electronics, 54(3):1-6, 2018.
[13]Guanzhong Pan, Chen Xu, et al., Large-Scale Proton-Implant-Defined VCSEL Arrays With Narrow Beamwidth, IEEE Electron Device Letters, 39(3): 390-393, 2018.
[14]Guanzhong Pan, Chen Xu, et al., Multi-junction cascade 905 nm vertical cavity surface emitting lasers with high power density, Acta Phys. Sin., vol. 71, no. 20, pp. 96-102, 2022.
[15]Guanzhong Pan, Chen Xu, et al., Enhancing beam quality and optical intensity of partially coherent VCSEL array by on chip integrating micro optical phase modulators, Japanese Journal of Applied Physics 58(8), 2019.
[16]Guanzhong Pan, Chen Xu, et al., A High-Compactness Electrically Controlled Beam-Steering Chip, Conference on Lasers and Electro-Optics (CLEO), Optica Publishing Group, 2019.
[17]Guanzhong Pan, Chen Xu, et al., Different Lasing Modes from H+-Implantation-Defined Coherently Coupled VCSEL Arrays, CLEO Pacific Rim Conference, Optica Publishing Group, 2018.
[18]Guanzhong Pan, Baolu Guan et al., Broad bandwidth interference filter-stabilized external cavity diode laser with narrow linewidth below 100kHz. Chinese Physics B, Vol. 27, no. 1, pp. 014204, 2018.
[19]Meng Xun, Guanzhong Pan*, et al., 190 ℃ High-Temperature Operation of 905-nm VCSELs With High Performance, IEEE Transactions on Electron Devices, vol. 68, no. 6, pp. 2829-2834, 2021.
[20]Meng Xun, Guanzhong Pan*, et al., Optimization of inductively coupled plasma etching for distributed Bragg reflectors in vertical cavity surface emitting lasers, Vacuum, 188:110175, 2021.
[21]Meng Xun, Guanzhong Pan*, et al., Analysis of Thermal Properties of 940-nm Vertical Cavity Surface Emitting Laser Arrays, IEEE Transactions on Electron Devices, 68(1): 158-163, 2021.
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