Design and Fabrication of a Multispectral Infrared Metamaterial Detector
Publication
, Conference
Montoya, J; Cardin, A; Tian, ZB; Krishna, S; Padilla, W
Published in: Optics InfoBase Conference Papers
January 1, 2016
Infrared imaging systems require new technologies at the pixel level to provide enhanced spectral sensitivity with similar function to cones and rods in the human retina. A multicolor imaging system can be accomplished with the aid of metamaterials to spectrally select and enhance a specific color from incoming radiation. In this work, we demonstrate the use of a metamaterial absorber design to enhance the quantum efficiency of an infrared interband cascade detector from 6.1% to 18.6% at a peak operating wavelength of 6.14μm and 4.1% to 14.7% at a peak operating wavelength of 7.13μm.
Duke Scholars
Published In
Optics InfoBase Conference Papers
EISSN
2162-2701
Publication Date
January 1, 2016
Citation
APA
Chicago
ICMJE
MLA
NLM
Montoya, J., Cardin, A., Tian, Z. B., Krishna, S., & Padilla, W. (2016). Design and Fabrication of a Multispectral Infrared Metamaterial Detector. In Optics InfoBase Conference Papers.
Montoya, J., A. Cardin, Z. B. Tian, S. Krishna, and W. Padilla. “Design and Fabrication of a Multispectral Infrared Metamaterial Detector.” In Optics InfoBase Conference Papers, 2016.
Montoya J, Cardin A, Tian ZB, Krishna S, Padilla W. Design and Fabrication of a Multispectral Infrared Metamaterial Detector. In: Optics InfoBase Conference Papers. 2016.
Montoya, J., et al. “Design and Fabrication of a Multispectral Infrared Metamaterial Detector.” Optics InfoBase Conference Papers, 2016.
Montoya J, Cardin A, Tian ZB, Krishna S, Padilla W. Design and Fabrication of a Multispectral Infrared Metamaterial Detector. Optics InfoBase Conference Papers. 2016.
Published In
Optics InfoBase Conference Papers
EISSN
2162-2701
Publication Date
January 1, 2016