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Title:

Terahertz frequency combs exploiting an on-chip solution processed graphene-quantum cascade laser coupled-cavity architecture

Document type:
Zeitschriftenaufsatz
Author(s):
Mezzapesa, F.P.; Garrasi, K.; Schmidt, J.; Salemi, L.; Pistore, V.; Li, L.; Davies, A.G.; Linfield, E.H.; Riesch, M.; Jirauschek, C.; Carey, T.; Torrisi, F.; Ferrari, A.C.; Miriam S Vitiello, M.S.
Abstract:
The ability to engineer quantum-cascade-lasers (QCLs) with ultrabroad gain spectra and with a full compensation of the group velocity dispersion, at Terahertz (THz) frequencies, is a fundamental need for devising monolithic and miniaturized optical frequency-comb-synthesizers (FCS) in the far-infrared. In a THz QCL four-wave mixing, driven by the intrinsic third-order susceptibility of the intersubband gain medium, self-lock the optical modes in phase, allowing stable comb operation, albeit over...     »
Keywords:
nanoengineered devices integrated nanostructures graphene saturable absorbers semiconductor heterostucture lasers frequency combs
Journal title:
arXiv:2011.11491v1 [physics.optics]; ACS Photonics 7, 12, 3489–3498 2020-12
Year:
2020
Year / month:
2020-12
Quarter:
4. Quartal
Month:
Dec
Pages contribution:
1-31
Fulltext / DOI:
doi:10.1021/acsphotonics.0c01523
WWW:
https://pubs.acs.org/doi/abs/10.1021/acsphotonics.0c01523
Publisher:
American Chemical Society ACS Publictions
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