Derivation of effective parameters of magnetic metamaterials composed of passive resonant LC inclusions
Publication
, Journal Article
Popa, B-I; Cummer, SA
September 28, 2006
We determine rigorously the effective permeability of magnetic metamaterials composed of passive particles exhibiting magnetic resonances. The effective permeability is expressed in terms of circuit parameters characteristic to these particles (L, C, and R) and particle geometry. The derivation takes into account the magnetic coupling between particles. We show that a bigger concentration of particles leads to an improvement in the metamaterial performances (such as bandwidth or loss tangent), but this effect saturates as the particles are packed more tightly. The theory is validated through numerical simulations of physically realizable metamaterials.
Duke Scholars
Publication Date
September 28, 2006
Citation
APA
Chicago
ICMJE
MLA
NLM
Popa, B.-I., & Cummer, S. A. (2006). Derivation of effective parameters of magnetic metamaterials composed of
passive resonant LC inclusions.
Popa, Bogdan-Ioan, and Steven A. Cummer. “Derivation of effective parameters of magnetic metamaterials composed of
passive resonant LC inclusions,” September 28, 2006.
Popa B-I, Cummer SA. Derivation of effective parameters of magnetic metamaterials composed of
passive resonant LC inclusions. 2006 Sep 28;
Popa, Bogdan-Ioan, and Steven A. Cummer. Derivation of effective parameters of magnetic metamaterials composed of
passive resonant LC inclusions. Sept. 2006.
Popa B-I, Cummer SA. Derivation of effective parameters of magnetic metamaterials composed of
passive resonant LC inclusions. 2006 Sep 28;
Publication Date
September 28, 2006