Hybrid graphene-plasmonic gratings to achieve enhanced nonlinear effects at terahertz frequencies
High input intensities are usually required to efficiently produce nonlinear optical effects in
ultrathin structures due to their extremely weak nature. This problem is particularly critical at …
ultrathin structures due to their extremely weak nature. This problem is particularly critical at …
Hybrid Graphene-Plasmonic Gratings to Achieve Enhanced Nonlinear Effects at Terahertz Frequencies
T Guo, B Jin, C Argyropoulos - 2018 - preprints.opticaopen.org
High input intensities are usually required to efficiently excite optical nonlinear effects in
ultrathin structures. This problem is particularly critical at terahertz (THz) frequencies …
ultrathin structures. This problem is particularly critical at terahertz (THz) frequencies …
Hybrid Graphene-Plasmonic Gratings to Achieve Enhanced Nonlinear Effects at Terahertz Frequencies
T Guo, B Jin, C Argyropoulos - Physical Review Applied, 2019 - pure.psu.edu
High input intensities are usually required to efficiently produce nonlinear optical effects in
ultrathin structures due to their extremely weak nature. This problem is particularly critical at …
ultrathin structures due to their extremely weak nature. This problem is particularly critical at …
Hybrid Graphene-Plasmonic Gratings to Achieve Enhanced Nonlinear Effects at Terahertz Frequencies
T Guo, B Jin, C Argyropoulos - arXiv preprint arXiv:1809.08194, 2018 - arxiv.org
High input intensities are usually required to efficiently excite optical nonlinear effects in
ultrathin structures. This problem is particularly critical at terahertz (THz) frequencies …
ultrathin structures. This problem is particularly critical at terahertz (THz) frequencies …
Hybrid Graphene-Plasmonic Gratings to Achieve Enhanced Nonlinear Effects at Terahertz Frequencies
T Guo, B Jin, C Argyropoulos - Physical Review Applied, 2019 - ui.adsabs.harvard.edu
High input intensities are usually required to efficiently produce nonlinear optical effects in
ultrathin structures due to their extremely weak nature. This problem is particularly critical at …
ultrathin structures due to their extremely weak nature. This problem is particularly critical at …
[PDF][PDF] Hybrid Graphene-Plasmonic Gratings to Achieve Enhanced Nonlinear Effects at Terahertz Frequencies
T Guo, B Jin, C Argyropoulos - PHYSICAL REVIEW APPLIED …, 2019 - researchgate.net
Graphene is a two-dimensional (2D) material with unique electric and optical properties [1,
2]. Surface plasmons are formed at its surface when it is excited by terahertz radiation [3], a …
2]. Surface plasmons are formed at its surface when it is excited by terahertz radiation [3], a …
Hybrid Graphene-Plasmonic Gratings to Achieve Enhanced Nonlinear Effects at Terahertz Frequencies
T Guo, B Jin, C Argyropoulos - 2018 - preprints.opticaopen.org
High input intensities are usually required to efficiently excite optical nonlinear effects in
ultrathin structures. This problem is particularly critical at terahertz (THz) frequencies …
ultrathin structures. This problem is particularly critical at terahertz (THz) frequencies …