Related references
Note: Only part of the references are listed.Topology optimization method of metamaterials design for efficient enhanced transmission through arbitrary-shaped sub-wavelength aperture
Pengfei Shi et al.
CHINESE PHYSICS B (2021)
Metamaterial absorber with dendritic cells at infrared frequencies
Weiren Zhu et al.
JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS (2009)
Design, theory, and measurement of a polarization-insensitive absorber for terahertz imaging
N. I. Landy et al.
PHYSICAL REVIEW B (2009)
Transmission line model and fields analysis of metamaterial absorber in the terahertz band
Qi-Ye Wen et al.
OPTICS EXPRESS (2009)
Realizing near-perfect absorption at visible frequencies
Chenggang Hu et al.
OPTICS EXPRESS (2009)
Perfect metamaterial absorber
N. I. Landy et al.
PHYSICAL REVIEW LETTERS (2008)
Giant optical gyrotropy due to electromagnetic coupling
E. Plum et al.
APPLIED PHYSICS LETTERS (2007)
Electrically resonant terahertz metamaterials: Theoretical and experimental investigations
W. J. Padilla et al.
PHYSICAL REVIEW B (2007)
Homogenization of metamaterials by field averaging (invited paper)
DR Smith et al.
JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS (2006)
Electric-field-coupled resonators for negative permittivity metamaterials
D Schurig et al.
APPLIED PHYSICS LETTERS (2006)
Effects of surface waves on the behavior of perfect lenses
MW Feise et al.
PHYSICAL REVIEW B (2002)
Experimental verification of a negative index of refraction
RA Shelby et al.
SCIENCE (2001)
Layered chiral metallic microstructures with inductive coupling
Y Svirko et al.
APPLIED PHYSICS LETTERS (2001)
Negative refraction makes a perfect lens
JB Pendry
PHYSICAL REVIEW LETTERS (2000)
Composite medium with simultaneously negative permeability and permittivity
DR Smith et al.
PHYSICAL REVIEW LETTERS (2000)
Share Paper
