Abstract

We show that microstructures built from nonmagnetic conducting sheets exhibit an effective magnetic permeability /spl mu//sub eff/, which can be tuned to values not accessible in naturally occurring materials, including large imaginary components of /spl mu//sub eff/. The microstructure is on a scale much less than the wavelength of radiation, is not resolved by incident microwaves, and uses a very low density of metal so that structures can be extremely lightweight. Most of the structures are resonant due to internal capacitance and inductance, and resonant enhancement combined with compression of electrical energy into a very small volume greatly enhances the energy density at critical locations in the structure, easily by factors of a million and possibly by much more. Weakly nonlinear materials placed at these critical locations will show greatly enhanced effects raising the possibility of manufacturing active structures whose properties can be switched at will between many states.

Keywords

CapacitanceMaterials scienceElectrical conductorInductanceNonlinear systemMicrowaveMagnetismMicrostructureOptoelectronicsWavelengthMetamaterialCondensed matter physicsPhysicsElectrical engineeringComposite materialEngineeringVoltage

Affiliated Institutions

Related Publications

Publication Info

Year
1999
Type
article
Volume
47
Issue
11
Pages
2075-2084
Citations
8471
Access
Closed

External Links

View on DOI.org

Social Impact

Altmetric
PlumX Metrics

Social media, news, blog, policy document mentions

Citation Metrics

8471
OpenAlex

Cite This

J. B. Pendry, A.J. Holden, David Robbins et al. (1999). Magnetism from conductors and enhanced nonlinear phenomena. IEEE Transactions on Microwave Theory and Techniques , 47 (11) , 2075-2084. https://doi.org/10.1109/22.798002

Identifiers

DOI
10.1109/22.798002