X
Xiang Zhang
Researcher at Baylor College of Medicine
Publications - 3483
Citations - 144843
Xiang Zhang is an academic researcher from Baylor College of Medicine. The author has contributed to research in topics: Medicine & Computer science. The author has an hindex of 154, co-authored 1733 publications receiving 117576 citations. Previous affiliations of Xiang Zhang include University of California, Berkeley & University of Texas MD Anderson Cancer Center.
Papers
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Journal ArticleDOI
Projecting deep-subwavelength patterns from diffraction-limited masks using metal-dielectric multilayers
Yi Xiong,Zhaowei Liu,Xiang Zhang +2 more
TL;DR: In this article, a metal-dielectric multilayer structure was used to generate deep-subwavelength one-dimensional and two-dimensional periodic patterns with diffraction-limited masks.
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Exploiting Coarse-to-Fine Task Transfer for Aspect-Level Sentiment Classification
TL;DR: This paper exploits a new direction named coarse-to-fine task transfer, which aims to leverage knowledge learned from a rich-resource source domain of the coarse-grained AC task, which is more easily accessible, to improve the learning in a low-resource target domain ofThe fine-grains AT task.
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Nonlinear quantum optics in a waveguide: distinct single photons strongly interacting at the single atom level.
TL;DR: A waveguide-QED system where two single photons of distinct frequency or polarization interact strongly, which could be an alternative to high quality cavities or dense atomic ensembles in quantum information processing.
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Optical and acoustic metamaterials: superlens, negative refractive index and invisibility cloak
Zi Jing Wong,Yuan Wang,Yuan Wang,Kevin J. O'Brien,Junsuk Rho,Xiaobo Yin,Shuang Zhang,Nicholas X. Fang,Ta-Jen Yen,Xiang Zhang,Xiang Zhang +10 more
TL;DR: In this paper, a review of optical and acoustic metamaterials in the past 15 years is presented, which may lead to exciting applications in communications, sensing, and imaging.
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Strongly enhanced molecular fluorescence inside a nanoscale waveguide gap.
Volker J. Sorger,Nitipat Pholchai,Ertugrul Cubukcu,Rupert F. Oulton,Pavel Kolchin,Christian Borschel,Martin Gnauck,Carsten Ronning,Xiang Zhang,Xiang Zhang +9 more
TL;DR: Astronomers demonstrate dramatically enhanced light-matter interaction for molecules placed inside the nanometer scale gap of a plasmonic waveguide highlighting the dominance of the nanoscale optical mode in competing with quenching processes.