Duanduan Wan
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Personal Information
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E-Mail:
b3bc455cf4ec4392b9c2ec58177653235248967bc59c8aaa7a6da752f80912724c57621fc7e4f50b7f00667b20f25c195703220ab80d4bfba8590da4f918aa109a055a74418428a1af29310fcfe87e607e8028045f62e0975c354c93099c9efaf2b40355209dbec78e83a20e005c6001c0460a02a0a3ab99c25d5c7b532cf688 -
School/Department:
School of Physics and Technology -
Education Level:
With Certificate of Graduation for Doctorate Study -
Business Address:
Physics Building,D-301 -
Gender:
Female -
Teacher College:
School of Physics and Technology
Paper Publications
Current position: Home > Scientific Research > Paper Publications
- [1]. Tao Liu, Kai Bai, Yicheng Zhang, Duanduan Wan, Yun Lai, C. T. Chan and Meng Xiao. Finite barrier bound state. Light: Sci. Appl. 13, 69 (2024)..
- [2]. Tao Liu, Kai Bai, Yicheng Zhang, Duanduan Wan, Yun Lai, C. T. Chan and Meng Xiao. The suppression of finite size effect within a few lattice sites. New J. Phys. 26, 023035(2024).
- [3]. Kai Bai, Jia-Zheng Li, Tian-Rui Liu, Liang Fang, Duanduan Wan and Meng Xiao. Observation of Nonlinear Exceptional Points with a Complete Basis in Dynamics. Phys. Rev. Lett. 132, 073802(2024).
- [4]. Jia-Zheng Li, Kai Bai, Cheng Guo, Tian-Rui Liu, Liang Fang, Duanduan Wan and Meng Xiao Braiding topology of symmetry-protected degeneracy points in non-Hermitian systems. Phys. Rev. B 109, L041102..
- [5]. Tao Liu, Ho-Kei Chan and Duanduan Wan. Chiral photonic crystals from sphere packing. Soft Matter, 19, 7313, (2023). [Selected as the back cover].
- [6]. Tian-Rui Liu, Kai Bai, Jia-Zheng Li, Liang Fang, Duanduan Wan and Meng Xiao. Spin-dependent gain and loss in photonic quantum spin Hall systems. Phys. Rev. B 108, L081101 (2023).
- [7]. Kai Bai, Jia-Zheng Li, Tian-Rui Liu, Liang Fang, Duanduan Wan and Meng Xiao. Nonlinear exceptional points with a complete basis in dynamics. Phys. Rev. Lett. 130, 266901 (2023).
- [8]. Zichen Qin, Tao Liu, and Duanduan Wan. Effects of orientational and positional randomness of particles on photonic band gap. Phys. Rev. B 107, 174110 (2023).
- [9]. Kai Bai, Liang Fang, Tian-Rui Liu, Jia-Zheng Li, Duanduan Wan and Meng Xiao. Nonlinearity enabled higher-order exceptional singularities with ultra-enhanced signal-to-noise ratio. Natl. Sci. Rev. nwac259 (2022).
- [10]. Duanduan Wan. Configurational entropy of colloidal particles in a confined space. Phys. Rev. E 106, 034609 (2022).
- [11]. Zhitao Chen*, Duanduan Wan* and Mark J. Bowick. Spontaneous tilt of single-clamped thermal elastic sheets. Phys. Rev. Lett. 128, 028006 (2022).
- [12]. Duanduan Wan and Sharon C. Glotzer. Unexpected dependence of photonic band gap size on randomness in self-assembled colloidal crystals. Phys. Rev. Lett. 126, 208002 (2021).
- [13]. Duanduan Wan*, Chrisy Xiyu Du*, Greg van Anders and Sharon C. Glotzer. FCC↔BCC phase transitions in convex and concave hard particle systems. J. Phys. Chem. B 123, 9038 (2019).
- [14]. Duanduan Wan and Sharon C. Glotzer Shapes within shapes: how particles arrange inside a cavity. Soft Matter 14, 3012 (2018). [Selected as the inside front cover].
- [15]. Duanduan Wan, David R. Nelson and Mark J. Bowick. Thermal stiffening of clamped elastic ribbons. Phys. Rev. B 96, 014106 (2017).
- [16]. Duanduan Wan and Mark J. Bowick. Planar and curved droplet networks. Europhys. Lett. 113, 16003 (2016).
- [17]. T. Zhang, Duanduan Wan, J. M. Schwarz and M. J. Bowick. Shape-shifting droplet networks. Phys. Rev. Lett. 116, 108301 (2016). [Featured in Physics].
- [18]. Duanduan Wan, Mark J. Bowick and Rastko Sknepnek. Effects of scars on icosahedral crystalline shell stability under external pressure. Phys. Rev. E 91, 033205 (2015).
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