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Metamaterials and the Control of Electromagnetic Fields JB Pendry Metamaterials at zero frequency B. Wood and JB Pendry J.B. Pendry Calculation of material properties and ray tracing in transformation media D. Schurig, J.B. Pendry, D.R. Smith Demonstration of a Metamaterial Electromagnetic Cloak at Microwave Frequencies D. Schurig, J. J. Mock, B. J. Justice, S. A. Cummer, J. B. Pendry, A. F. Starr, D. R. Smith Controlling Electromagnetic Fields JB Pendry, D Schurig, and DR Smith JB Pendry and DR Smith Sub-wavelength imaging at radio frequency MCKWiltshire, JB Pendry and JV Hajnal Homogenization of Metamaterials by Field Averaging D. R. Smith & J. B. Pendry A New Route to Negative Refraction
JB Pendry Manipulating
the Near Field with Metamaterials
JB Pendry Metamaterials and Negative
Refractive Index
DR Smith, JB Pendry, MCK Wiltshire Mimicking Surface Plasmons with
Structured Surfaces
JB Pendry, L Martín-Moreno, and FJ Garcia-Vidal Reversing Light with Negative Refraction JB Pendry and DR Smith JB Pendry JB Pendry and SA
Ramakrishna Focussing Light Using Negative
Refraction
JB Pendry and SA
Ramakrishna JB Pendry JB Pendry Near Field Imaging with Magnetic Wires
MCK Wiltshire, JV Hajnal, JB Pendry and DJ Edwards Near Field Lenses in Two
Dimensions
JB Pendry and SA Ramakrishna, Comment on “Left-Handed
Materials Do Not Make a Perfect Lens”
JB Pendry, submitted to Phys. Rev. Lett. (2002) Comment on “Wave Refraction in
Negative-Index Media: Always Positive and Very Inhomogeneous”
JB Pendry and DR Smith, Optical
gain removes absorption and increases resolution in a near-field lens
S. Anantha Ramakrishna and J.B. Pendry, Phys.
Rev. B67 201101 (2003).
Magnetic Activity at Infra Red
Frequencies in Structured Metallic Photonic Crystals
Stephen O’Brien and JB Pendry, Photonic Band Gap Effects and
Magnetic Activity in Dielectric Composites
Stephen O’Brien and JB Pendry, J. Phys. [Condensed Matter] 14 4035-44 (2002). All-Angle Negative Refraction
without Negative Effective Index
Chiyan Luo, Steven G.
Johnson, and J.D. Joannopoulos, The Asymmetric Lossy Near Perfect Lens
S. Anantha
Ramakrishna,
J.B. Pendry, David Schurig, David R. Smith, Sheldon Schultz S.Anantha
Ramakrishna, J.B. Pendry, M.C.K. Wiltshire and W.J. Stewart, Time reversal symmetry, microcavities, and
photonic crystals
G Guida, PN Stavrinou, G Parry, and JB Pendry, J. Mod. Optics 48 581-95 (2001). Evanescently Coupled resonance in Surface
Plasmon Enhanced Transmission
A Krishnan, T Thio, TJ Kim, HJ Lezec, TW
Ebbesen, PA Wolff, JB Pendry, L Martín-Moreno, FJ Garcia Vida Electromagnetic Materials Enter the Negative
Age
JB Pendry, Physics World 14 [9], 47 (2001). Theory of Extraordinary Optical Transmission
through Subwavelength Hole Arrays
Martín-Moreno, FJ Garcia Vidal, HJ Lezec, KM
Pellerin, T Thio, JB Pendry, and TW Ebbesen, JB Pendry Physics World 13, 27 (2000). AJ Ward and JB Pendry, Computer Physics Communications 128, 590-621 (2000). JB Pendry, Science 285 1687-8 (1999). Microstructured Magnetic Materials for Radio Frequency Operation in Magnetic Resonance Imaging (MRI) M C K Wiltshire, J B Pendry, I
R Young, D J Larkman, D J Gilderdale and J V Hajnal Negative Refraction Makes a Perfect Lens JB Pendry, Phys. Rev. Lett., 85, 3966 (2000). Intense Focusing Of Light Using Metals JB Pendry, NATO ASI series ed. CM Soukoulis Magnetism from Conductors, and Enhanced Non-Linear Phenomena JB Pendry, AJ Holden, DJ
Robbins, and WJ Stewart,
IEEE transactions on microwave theory and techniques 47,2075 (1999). J.B. Pendry. Current Science, 76, 1311 (1999). Transmission Resonances on Metallic Gratings with Very Narrow Slits J.A. Porto, F.J. Garcia-Vidal and J.B. Pendry. Phys. Rev. Lett. 83, 2845-8 (1999) Radiative Exchange of Heat Between Nanostructures J.B. Pendry. J. Phys. [Condensed Matter] 11 6621-33 (1999) Can Sheared Surfaces Emit Light? J.B. Pendry. Journal of Modern Optics, 45, 2389 (1998). Low Frequency Plasmons in Thin Wire Structures J.B. Pendry, AJ Holden, DJ
Robbins, and WJ Stewart, Silver-filled Carbon Nanotubes Used as Spectroscopic Enhancers F.J. García-Vidal, J.M Pitarke and J.B. Pendry, Physical Review B, 58, 6783 (1998). Order-N Photonic Band Structures for Metals and Other Dispersive Materials J. Arriaga, A.J. Ward and J.B. Pendry, Phys. Rev. B59 1874-7 (1999). Calculating Photonic Green's Functions Using a Non-Orthogonal Finite Difference Time Domain Method A.J. Ward and J.B. Pendry, Physical Review B, 58, 7252, (1998). Electromagnetic Forces in Photonic Crystals M.I. Antonoyiannakis and J.B. Pendry, Physical Review B60, 2363, (1999). Shearing the Vacuum - Quantum Friction J.B. Pendry, Journal of Physics: Condensed Matter, 9, 10301, (1997) The Theory of SNOM: a Novel Approach A.J. Ward and J.B. Pendry, Journal of Modern Optics, 44, 1703, (1997) Mie Resonances and Bonding in Photonic Crystals M.I. Antonoyiannakis and J.B. Pendry, Europhys. Lett., 40, 613 (1997) Effective Medium Theory of the Optical Properties of Aligned Carbon Nanotubes F.J. García-Vidal, J.M. Pitarke, and J.B. Pendry, Phys. Rev. Lett., 78, 4289 (1997). Electron Energy Loss in Composite Systems J.M. Pitarke, J.B. Pendry, and P.M. Echenique, Phys. Rev. B, 55, 9550 (1997). Green's Functions for Maxwell's Equations: Application to Spontaneous Emission F. Wijnands, J.B. Pendry, F.J. García-Vidal, P.M. Bell, P.J. Roberts, and L. Martín Moreno, Optical and Quantum Electronics, 29, 199 (1997). Collective Theory for Surface-Enhanced Raman-Scattering F.J. García-Vidal and J.B. Pendry, Phys. Rev. Lett., 77, 1163 (1996). Extremely-Low-Frequency Plasmons in Metallic Mesostructures J.B. Pendry, A.T. Holden, W.J.
Stewart and
Numerical Method for Calculating Spontaneous Emission Rate Near a Surface Using Green's Functions F. Wijnands, J.B. Pendry, P.J. Roberts, P.M. Bell, L. Martín-Moreno, and F.J. García-Vidal, in "Microcavities and Photonic Bandgaps", NATO ASI Series E: Applied Sciences - Vol. 324, edited by J. Rarity and C. Weisbuch (Kluwer, Dordrecht, 1996), p. 299. Transfer Matrix Techniques for Electromagnetic Waves J.B. Pendry and P.M. Bell, in "Photonic Band Gap Materials", NATO ASI Series E: Applied Sciences - Vol. 315, edited by C. M. Soukoulis (Kluwer, Dordrecht, 1996), p. 203. Electromagnetic Field Distributions in Complex Dielectric Structures P.M. Bell, L. Martín Moreno, F.J. García-Vidal and J.B. Pendry, in "Photonic Band Gap Materials", NATO ASI Series E: Applied Sciences - Vol. 315, edited by C. M. Soukoulis (Kluwer, Dordrecht, 1996), p. 253. Refraction and Geometry in Maxwells Equations A.J. Ward and J.B. Pendry, Journal of Modern Optics, 43, 773 (1996). Calculating Photonic Band-Structure J. B. Pendry, J. Phys. (Condensed Matter), 8, 1085 (1996). Quantum
Limits to the Flow of Information and Entropy
J. B. Pendry, J. Phys. A), 16, 2161-71 (1983). Symmetry and transport of waves in 1D disordered systems J. B. Pendry, Advances in Physics, 43, 461-542 (1994). |