Leveraging Design and Technology of the Sb2 S3 /Au Surface Plasmon Enhanced Hot-Electron Schottky Detectors for Telecom Wavelength Bands Applications
2023 International Semiconductor Conference (CAS)(2023)
摘要
The present paper evaluates two possible fabrication technologies of the IR surface plasmon-enhanced hot electron Schottky detectors (SP-HESD) as a function of their critical process parameter (grating spacing) and absorbance performance. The first-one is defined by metal film at the top, (Au/Sb
2
S
3
) and the second one by the Sb
2
S
3
film at the top (Sb
2
S
3
/Au). Considering the nanolithography requirements and the associated design and simulation results, it is demonstrated that for a spacing of 60 nm between metal fingers, a good leverage between performances and technological realizability is obtained for the Sb
2
S
3
/Au technology. In addition, for the first time, the reversibility of Sb
2
S
3
/Au (SP-HESD) detector is demonstrated here via simulation, by its capability to detect “L” telecom wavelength band, (1565-1625) nm, when Sb
2
S
3
is in the crystalline state and “O” band, 1260-1360 nm, when Sb
2
S
3
is switched to the amorphous phase.
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关键词
surface plasmons,hot-electrons,telecom wavelength,reconfigurability,IR Schottky detector.
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