[2022.3] Pitilakis A. and Kriezis Em. E., "Ultrafast pulse propagation in graphene-comprising nanophotonic waveguides considering nonperturbative electrodynamic nonlinearity," Journal of the Optical Society of America B, 39 (10), 2723-2734, (2022). [pdf]

[2022.2] Chatzidimitriou D., Zografopoulos D. C., and Kriezis Em. E., "Graphene Saturable Absorber Mirrors for Silicon Photonic Platforms"IEEE Photonics Journal14 (4), 2239908, (2022). [pdf]

[2022.1] Nousios G., Christopoulos T., Tsilipakos O., and Kriezis Em. E., "Dynamic Routing through Saturable Absorption in Graphene Photonic Resonators: Impact of Carrier Diffusion and Finite Relaxation Time", Journal of Applied Physics, 131 (5), 053104, (2022). [pdf]

[2021.5] Tsilipakos O., Maiolo L., Maita F., Beccherelli R., Kafesaki M., Kriezis Em. E., Yioultsis T. V., and Zografopoulos D. C., "Experimental demonstration of ultrathin broken-symmetry metasurfaces with controllably sharp resonant response", Applied Physics Letters, 119 (23), 231601, (2021). [pdf]

[2021.4] Sinatkas G., Christopoulos T., Tsilipakos O., and Kriezis Em. E., "Electro-optic modulation in integrated photonics", Journal of Applied Physics, 130 (1), 010901, (2021). [pdf]

[2021.3] Chatzidimitriou D., Pitilakis A., Yioultsis T. V., and Kriezis Em. E., "Breaking Reciprocity in a non-Hermitian Photonic Coupler with Saturable Absorption", Physical Review A, 103 (5), 053503, (2021). [pdf (ArXiv)]

[2021.2] Pitilakis A., Chatzidimitriou D., Yioultsis T. V., and Kriezis Em. E., "Asymmetric Si-slot Coupler with Nonreciprocal Response Based on Graphene Saturable Absorption", IEEE Journal of Quantum Electronics, 57 (3), 8400210, (2021). [pdf (ArXiv)]

[2021.1Zografopoulos D. C.Algorri J. F.Fuscaldo W.López‐Higuera J. M.Vergaz R.Sánchez‐Pena J. M.Karolos I.‐A.Beccherelli R.Tsioukas V. E.Yioultsis T. V., and Kriezis Em. E., "All‐Dielectric Toroidal Metasurfaces for Angular‐Dependent Resonant Polarization Beam Splitting", Advanced Optical Materials, 2002143, (2021). [pdf (Open Access)]


Powered by Joomla!. Valid XHTML and CSS.