Title :
Magnetically Tunable Terahertz Isolator Based on Structured Semiconductor Magneto Plasmonics
Author :
Fan, Fei ; Chang, Sheng-Jiang ; Gu, Wen-Hao ; Wang, Xiang-Hui ; Chen, Ai-Qi
Author_Institution :
Inst. of Modern Opt., Nankai Univ., Tianjin, China
Abstract :
A tunable terahertz (THz) isolator based on a periodically structured semiconductor magneto plasmonics is proposed. The unique photonic band-gap and one-way transmission property of this structure with different magnetic fields and temperature are investigated in the THz regime. The numerical results show the proposed isolator has a bandwidth of 80 GHz with the maximum isolation of higher than 90 dB and a low insertion loss of 5%. The central operating frequency of this isolator can be broadly tuned from 1.4 to 0.9 THz by changing the external magnetic field from 0.6 to 1.6 Tesla at 195 K. This low-loss high isolation broadband nonreciprocal THz transmission mechanism has great potential applications in promoting the performances of THz application systems.
Keywords :
magnetic semiconductors; magneto-optical isolators; microwave photonics; numerical analysis; optical losses; optical tuning; periodic structures; photonic band gap; plasmonics; terahertz wave devices; terahertz wave spectra; THz isolator; bandwidth 80 GHz; central operating frequency; external magnetic field; frequency 1.4 THz to 0.9 THz; low insertion loss; low-loss high isolation broadband nonreciprocal THz transmission; magnetic flux density 0.6 tesla to 1.6 tesla; magnetically tunable terahertz isolator; maximum isolation; numerical analysis; one-way transmission property; periodically structured semiconductor magneto plasmonics; photonic band-gap; temperature 195 K; Dielectrics; Dispersion; Isolators; Periodic structures; Plasmons; Surface waves; Temperature; Isolator; magneto surface plasmon; one-way waveguide; terahertz (THz);
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2012.2219858
