Magneto-optical properties of InSb for infrared spectral filtering
Author(s)
Peard, Nolan; Callahan, Dennis; Perkinson, Joy C; Du, Qingyang; Patel, Neil S; Fakhrul, Takian; LeBlanc, John; Ross, Caroline A; Hu, Juejun; Wang, Christine Y; ... Show more Show less
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We present measurements of the Faraday effect in n-type InSb. The Verdet
coefficient was determined for a range of carrier concentrations near $10^{17}$
$\text{cm}^{-3}$ in the $\lambda$ = 8 $\mu$m - 12 $\mu$m long-wave infrared
regime. The absorption coefficient was measured and a figure of merit
calculated for each sample. From these measurements, we calculated the carrier
effective mass and illustrate the variation of the figure of merit with
wavelength. A method for creating a tunable bandpass filter via the Faraday
rotation is discussed along with preliminary results from a prototype device.
Date issued
2021Department
Massachusetts Institute of Technology. Department of Materials Science and EngineeringJournal
Journal of Applied Physics
Publisher
AIP Publishing
Citation
Peard, Nolan, Callahan, Dennis, Perkinson, Joy C, Du, Qingyang, Patel, Neil S et al. 2021. "Magneto-optical properties of InSb for infrared spectral filtering." Journal of Applied Physics, 129 (20).
Version: Original manuscript