J
John B. Pendry
Researcher at Imperial College London
Publications - 546
Citations - 94437
John B. Pendry is an academic researcher from Imperial College London. The author has contributed to research in topics: Metamaterial & Plasmon. The author has an hindex of 100, co-authored 536 publications receiving 88802 citations. Previous affiliations of John B. Pendry include University of California, San Diego & Duke University.
Papers
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Electron localisation, Lyapunov exponents and the symmetric group
TL;DR: In this article, the authors used the theory of the symmetric group to construct a generalised transfer matrix from which they can obtain the Lyapunov exponents of the original transfer matrix and the localisation lengths for an electron in a random potential.
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Theoretical Aspects of the Nature of the Surface Chemical Bond
TL;DR: The determination of surface chemical bonds has involved an interplay between theory and experiment as mentioned in this paper and two major techniques, I.e.d. and s.X.a.d., are discussed and some of their limitations analysed.
Journal ArticleDOI
The application of the chain method to electron emission
R.N. Lindsay,John B. Pendry +1 more
TL;DR: In this paper, a method for calculating the emitted intensity of angular resolved X-ray core level emission is presented, based on the chain method of Pendry and Gard (1975).
Patent
Evanescent electromagnetic wave conversion apparatus and methods
Jeffrey A. Bowers,Roderick A. Hyde,Edward K. Y. Jung,John B. Pendry,David Schurig,David R. Smith,Clarence T. Tegreene,Thomas A. Weaver,Charles Whitmer,Jr. Lowell L. Wood +9 more
TL;DR: In this article, the authors provide an approach for the conversion of evanescent electromagnetic waves to non-evanescent ones by using an artificially-structured material such as a layered structure or other metamaterial.
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Revealing topology with transformation optics.
Lizhen Lu,Lizhen Lu,Kun Ding,Kun Ding,Emanuele Galiffi,Emanuele Galiffi,Xikui Ma,Tianyu Dong,John B. Pendry +8 more
TL;DR: In this article, a plasmonic system in a higher-dimensional virtual space is projected onto a lower-dimensional system in real space, and a topological invariant can be controlled via the singularities in the conformal mapping.