His primary scientific interests are in Optics, Nanotechnology, Optoelectronics, Synthetic aperture radar and Artificial intelligence. His research on Optics frequently connects to adjacent areas such as Coding. His Nanotechnology study frequently intersects with other fields, such as Metal-organic framework.
He has included themes like Coupling, Wavefront and Nanostructure in his Optoelectronics study. His work deals with themes such as Algorithm, Motion compensation, Phase and Autofocus, which intersect with Synthetic aperture radar. His Artificial intelligence research includes themes of Radar imaging and Computer vision.
Lei Zhang spends much of his time researching Optics, Optoelectronics, Condensed matter physics, Particle physics and Chemical engineering. Lei Zhang is interested in Laser, which is a branch of Optics. Lei Zhang combines topics linked to Lepton with his work on Particle physics.
Lei Zhang mainly investigates Particle physics, Large Hadron Collider, Optoelectronics, Lepton and Branching fraction. His study in Energy extends to Particle physics with its themes. His Large Hadron Collider study integrates concerns from other disciplines, such as Physics beyond the Standard Model, Pair production, Quark and Muon.
Muon and Top quark are commonly linked in his work. His specific area of interest is Optoelectronics, where Lei Zhang studies Photocurrent.
Lei Zhang mainly investigates Particle physics, Large Hadron Collider, Nuclear physics, Optoelectronics and Perovskite. His research investigates the connection between Particle physics and topics such as Lepton that intersect with issues in Top quark. His work carried out in the field of Large Hadron Collider brings together such families of science as Pair production, Boson and Muon.
His studies in Nuclear physics integrate themes in fields like Photon, Center of mass, Charged particle and Resonance. The Optoelectronics study combines topics in areas such as Water splitting and Holography. His work in Perovskite addresses subjects such as Halide, which are connected to disciplines such as Chemical engineering, Solar cell, Molecule, Aqueous solution and Energy transformation.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Anchoring Groups for Dye-Sensitized Solar Cells
Lei Zhang;Jacqueline M. Cole.
ACS Applied Materials & Interfaces (2015)
Plasmonic Color Palettes for Photorealistic Printing with Aluminum Nanostructures
Shawn J. Tan;Lei Zhang;Di Zhu;Xiao Ming Goh.
Nano Letters (2014)
LBlock: a lightweight block cipher
Wenling Wu;Lei Zhang.
applied cryptography and network security (2011)
Ultrathin pancharatnam-berry metasurface with maximal cross-polarization efficiency.
Xumin Ding;Francesco Monticone;Kuang Zhang;Lei Zhang.
Advanced Materials (2015)
Combined measurements of Higgs boson production and decay using up to 80 fb− 1 of proton-proton collision data at √s=13 TeV collected with the ATLAS experiment
Georges Aad;Alexander Kupco;Samuel Webb;Timo Dreyer.
Physical Review D (2020)
A Scalable Robust Authentication Protocol for Secure Vehicular Communications
Lei Zhang;Qianhong Wu;Agusti Solanas;Josep Domingo-Ferrer.
IEEE Transactions on Vehicular Technology (2010)
Search for new phenomena with photon+jet events in proton-proton collisions at √s = 13 TeV with the ATLAS detector
G. Aad;B. Abbott;J. Abdallah;O. Abdinov.
Journal of High Energy Physics (2016)
Resolution Enhancement for Inversed Synthetic Aperture Radar Imaging Under Low SNR via Improved Compressive Sensing
Lei Zhang;Mengdao Xing;Cheng-Wei Qiu;Jun Li.
IEEE Transactions on Geoscience and Remote Sensing (2010)
Space-time-coding digital metasurfaces
Lei Zhang;Xiao Qing Chen;Shuo Liu;Qian Zhang.
Nature Communications (2018)
Visible-Frequency Metasurface for Structuring and Spatially Multiplexing Optical Vortices.
M. Q. Mehmood;Shengtao Mei;Sajid Hussain;Kun Huang.
Advanced Materials (2016)
Profile was last updated on December 6th, 2021.
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