ZHANG Baile

Appointment: Professor

Research topics:

Dr. Baile ZHANG’s current research interests include electromagnetic wave theory, invisibility cloaking, metamaterials, phononics and acoustics. His research theme is the physics of waves.

For more information, visit personal webpage

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211 to 220 of 290 Results

fig5b.mat Aug 30, 2022 - Replication Data for: Topology-controlled photonic cavity based on the near-conservation of the valley degree of freedom MATLAB Data - 640 B - MD5: f44b2a805c866bd2a14cc483881e04e7
fig5cd.m Aug 30, 2022 - Replication Data for: Topology-controlled photonic cavity based on the near-conservation of the valley degree of freedom Plain Text - 2.3 KB - MD5: b666056785d2eb729b15a88dad05566c
readme.txt Aug 30, 2022 - Replication Data for: Topology-controlled photonic cavity based on the near-conservation of the valley degree of freedom Plain Text - 261 B - MD5: c880995c19f2e9199d323c335875d2ba
Replication data for: All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures Aug 30, 2022 Lin, Xiao; Zhang, Baile, 2022, "Replication data for: All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures", https://doi.org/10.21979/N9/FY7ETC, DR-NTU (Data), V1 Matlab files for the figures in "All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures" by Xiao Lin et al. [Paper Abstract] A fundamental building block for nanophotonics is the ability to achieve negative refrac...
Fig1b_PNAS.fig Aug 30, 2022 - Replication data for: All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures MATLAB Figure - 10.0 MB - MD5: 74999934baab7c0998e02dae86654f76 This file is part of "All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures".
Fig2_PNAS.fig Aug 30, 2022 - Replication data for: All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures MATLAB Figure - 20.9 MB - MD5: ea534f961b7726f2aefc834d60004de6 This file is part of "All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures".
readme.txt Aug 30, 2022 - Replication data for: All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures Plain Text - 202 B - MD5: 87720467a7785b362ba78b9d82b31c73 readme file
Replication data for: Controlling Cherenkov angles with resonance transition radiation Aug 30, 2022 Lin, Xiao; Zhang, Baile, 2022, "Replication data for: Controlling Cherenkov angles with resonance transition radiation", https://doi.org/10.21979/N9/GWC791, DR-NTU (Data), V1 Matlab files for the figures in "Controlling Cherenkov angles with resonance transition radiation" by Xiao Lin et al. [Paper Abstract] Cherenkov radiation provides a valuable way to identify high-energy particles in a wide momentum range, through the relation between the particle...
Fig1b.fig Aug 30, 2022 - Replication data for: Controlling Cherenkov angles with resonance transition radiation MATLAB Figure - 3.4 MB - MD5: 71837a26e49fda4ff9ae7fa6f42a2bef This file is part of "Replication Data for: Controlling Cherenkov angles with resonance transition radiation".
Fig1c.fig Aug 30, 2022 - Replication data for: Controlling Cherenkov angles with resonance transition radiation MATLAB Figure - 729.7 KB - MD5: 1688e81a6c0c0d495b3ac53813ec3670 This file is part of "Replication Data for: Controlling Cherenkov angles with resonance transition radiation".

fig5b.mat

Aug 30, 2022 - Replication Data for: Topology-controlled photonic cavity based on the near-conservation of the valley degree of freedom

MATLAB Data - 640 B -

fig5cd.m

Aug 30, 2022 - Replication Data for: Topology-controlled photonic cavity based on the near-conservation of the valley degree of freedom

Plain Text - 2.3 KB -

readme.txt

Aug 30, 2022 - Replication Data for: Topology-controlled photonic cavity based on the near-conservation of the valley degree of freedom

Plain Text - 261 B -

Replication data for: All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures

Aug 30, 2022

Lin, Xiao; Zhang, Baile, 2022, "Replication data for: All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures", https://doi.org/10.21979/N9/FY7ETC, DR-NTU (Data), V1

Matlab files for the figures in "All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures" by Xiao Lin et al. [Paper Abstract] A fundamental building block for nanophotonics is the ability to achieve negative refrac...

Fig1b_PNAS.fig

Aug 30, 2022 - Replication data for: All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures

MATLAB Figure - 10.0 MB -

This file is part of "All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures".

Fig2_PNAS.fig

Aug 30, 2022 - Replication data for: All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures

MATLAB Figure - 20.9 MB -

This file is part of "All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures".

readme.txt

Aug 30, 2022 - Replication data for: All-angle negative refraction of highly squeezed plasmon and phonon polaritons in graphene–boron nitride heterostructures

Plain Text - 202 B -

readme file

Replication data for: Controlling Cherenkov angles with resonance transition radiation

Aug 30, 2022

Lin, Xiao; Zhang, Baile, 2022, "Replication data for: Controlling Cherenkov angles with resonance transition radiation", https://doi.org/10.21979/N9/GWC791, DR-NTU (Data), V1

Matlab files for the figures in "Controlling Cherenkov angles with resonance transition radiation" by Xiao Lin et al. [Paper Abstract] Cherenkov radiation provides a valuable way to identify high-energy particles in a wide momentum range, through the relation between the particle...

Fig1b.fig

Aug 30, 2022 - Replication data for: Controlling Cherenkov angles with resonance transition radiation

MATLAB Figure - 3.4 MB -

This file is part of "Replication Data for: Controlling Cherenkov angles with resonance transition radiation".

Fig1c.fig

Aug 30, 2022 - Replication data for: Controlling Cherenkov angles with resonance transition radiation

MATLAB Figure - 729.7 KB -

This file is part of "Replication Data for: Controlling Cherenkov angles with resonance transition radiation".

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