Yuan Dong Gu scite author profile

We developed a hybrid nanoimprint-soft lithography technique with sub-15 nm resolution. It is capable of patterning both flat and curved substrates. The key component of the technology is the mold, which consists of rigid features on an elastic poly(dimethylsiloxane) (PDMS) support. The mold was fabricated by imprinting a reverse image onto the PDMS substrate using a UV-curable low-viscosity prepolymer film. Patterns with sub-15-nm resolution were faithfully duplicated on a flat substrate without applying external pressure. Gratings at 200 nm pitch were also successfully imprinted onto the cylindrical surface of a single mode optical fiber with a 125 µm diameter.

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Dual mode acoustic wave sensor for precise pressure reading

Kropelnicki

Wang

et al. 2014

Appl. Phys. Lett.

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Acoustic planar hyperlens based on anisotropic density-near-zero metamaterials

Cheng

Liu

2015

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Based on anisotropic density-near-zero metamaterials, we demonstrate a planar hyperlens with resolution beyond the diffraction limit in both one and two lateral dimensions. In contrast to the cylindrical hyperlens with elliptical dispersions of finite anisotropy, the proposed planar hyperlens is designed with flat near-zero dispersion that supports wave tunneling with extremely high phase velocity for infinite large transverse wave vectors. Therefore, the acoustic evanescent waves immediately concentrate into the designed oblique path till the output surface, leading to a subwavelength resolution. Prototype hyperlens is constructed with a membrane-network by means of equivalent lumped-circuit model, and the subwavelength magnifying performance for a pair of one-dimensional line objects as well as the complex two-dimensional structure is demonstrated. This method provides diverse routes to construct hyperlens operating without the limitation on imaging region in practical applications.

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A pseudo-planar metasurface for a polarization rotator

Zhang¹,

Zhu²,

Chia³

et al. 2014

Opt. Express

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New demonstrations of effective interaction between light and artificially electromagnetic interface, or the metasurface, have stimulated intensive research interests on control of light to realize applications in beam steering, optical imaging and light focusing, etc. Here we reported a new type of planar metasurface of which every individual metamolecule is single metallic layer with stereo structure and the metasurface is name as Pseudo-Planar Metasurface (PPM). The metamolecule of the PPM is a chiral structure and therefore derives significant optical activity.

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Controlling sound transmission with density-near-zero acoustic membrane network

Cheng

Wang

et al. 2015

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We demonstrate a design of two-dimensional density-near-zero (DNZ) membrane structure to control sound transmission. The membrane structure is theoretically modeled as a network of inductors and capacitors, and the retrieved effective mass density is confirmed to be close to zero at the resonance frequency. This scheme proposes a convenient way to construct the unit cell for achieving DNZ at the designed frequency. Further simulations clearly demonstrate that the membrane-network has the ability to control sound transmission such as achieving cloaking, high transmission through sharp corners, and high-efficient wave splitting. Different from the phononic-crystal-based DNZ materials, the compact DNZ membrane-network is in deep subwavelength scale and provides a strong candidate for acoustic functional devices.

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Radio frequency pasteurization and disinfestation techniques applied on low-moisture foods

Jiang

Gou

et al. 2019

Critical Reviews in Food Science and Nutrition

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Changes in protein interactions in pasteurized milk during cold storage

et al. 2020

Food Bioscience

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Tip-induced superconductivity on the topological semimetals TaAs2 and NbAs2

et al. 2020

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Yuan Dong Gu

Hybrid Nanoimprint−Soft Lithography with Sub-15 nm Resolution

Dual mode acoustic wave sensor for precise pressure reading

Acoustic planar hyperlens based on anisotropic density-near-zero metamaterials

A pseudo-planar metasurface for a polarization rotator

Controlling sound transmission with density-near-zero acoustic membrane network

Radio frequency pasteurization and disinfestation techniques applied on low-moisture foods

Changes in protein interactions in pasteurized milk during cold storage

Tip-induced superconductivity on the topological semimetals TaAs2 and NbAs2

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