Peiran Yin scite author profile

Peiran Yin

2Publications

38Citation Statements Received

87Citation Statements Given

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Affiliations

Nanjing University, University of Science and Technology of China, CAS Key Laboratory of Urban Pollutant Conversion

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Nonreciprocal Radio Frequency Transduction in a Parametric Mechanical Artificial Lattice

Huang

Zhang

et al. 2016

Phys. Rev. Lett.

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Generating nonreciprocal radio frequency transduction plays important roles in a wide range of research and applications, and an aspiration is to integrate this functionality into microcircuits without introducing a magnetic field, which, however, remains challenging. By designing a 1D artificial lattice structure with a neighbor interaction engineered parametrically, we predicted a nonreciprocity transduction with a large unidirectionality. We then experimentally demonstrated the phenomenon on a nanoelectromechanical chip fabricated by conventional complementary metal-silicon processing. A unidirectionality with isolation as high as 24 dB is achieved, and several different transduction schemes are realized by programing the control voltage topology. Apart from being used as a radio frequency isolator, the system provides a way to build a practical on-chip programmable device for broad research and applications in the radio frequency domain.

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Perfect coherent transfer in an on-chip reconfigurable nanoelectromechanical network

et al. 2020

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Realizing a controllable network with multiple degrees of interaction is a challenge to physics and engineering. Here, we experimentally report an on-chip reconfigurable network based on nanoelectromechanical resonators with nearest-neighbor (NN) and next-nearest-neighbor (NNN) strong couplings. By applying different parametric voltages on the same on-chip device, we carry out perfect coherent transfer in NN and NNN coupled array networks. Moreover, the low-loss resonators ensure the desired evolution to achieve perfect transfer and the demonstration of the parity-dependent phase relation at transmission cycles. The realization of NNN couplings demonstrates the capability of engineering coherent coupling beyond a simple model of a NN coupled array of doubly clamped resonators. Our reconfigurable nanoelectromechanical network provides a highly tunable physical platform and offers the possibilities of investigating various interesting phenomena, such as topological transport, synchronization of networks, as well as metamaterials.

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Peiran Yin

Nonreciprocal Radio Frequency Transduction in a Parametric Mechanical Artificial Lattice

Perfect coherent transfer in an on-chip reconfigurable nanoelectromechanical network

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