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Chia Wei Hsu's indexed work centers on bound states in the continuum (BIC), a phenomenon where waves remain localized despite being embedded in a continuous spectrum of radiating waves. Their foundational contributions include the first observation of trapped light within the radiation continuum (2013, Nature), which has garnered over 1400 citations, and a comprehensive review of bound states in the continuum (2016, Nature Reviews Materials), cited over 3200 times. Further research explores practical applications, such as transparent displays enabled by resonant nanoparticle scattering (2014, Nature Communications) and the control of wave focusing in disordered media (2017, Nature Physics). Publicly indexed outputs also highlight contributions to understanding the topological nature of optical bound states in the continuum (2014, Physical Review Letters), a work with over 1100 citations. Hsu has also contributed to studies on observation of bulk Fermi arc and polarization half charge from paired exceptional points (2018, Science). This body of work consistently investigates the fundamental properties and potential applications of wave phenomena in complex optical systems.
Chia Wei Hsu, Bo Zhen, Jeongwon Lee, Song-Liang Chua, Steven G Johnson, John D Joannopoulos, Marin Soljačić
Bo Zhen, Chia Wei Hsu, Ling Lu, A Douglas Stone, Marin Soljačić
Hengyun Zhou, Chao Peng, Yoseob Yoon, Chia Wei Hsu, Keith A Nelson, Liang Fu, John D Joannopoulos, Marin Soljačić, Bo Zhen
Yiwen Zhang, Ang Chen, Wenzhe Liu, Chia Wei Hsu, Bo Wang, Fang Guan, Xiaohan Liu, Lei Shi, Ling Lu, Jian Zi
Mengzhen Zhang, William Sweeney, Chia Wei Hsu, Lan Yang, A D Stone, Liang Jiang
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