UV laser induced ferroelectric domain inversion in lithium niobate single crystalsMAILIS, S.Journal of optics (Print). 2010, Vol 12, Num 9, issn 2040-8978, 095601.1-095601.7Article

Photorefractive adaptive transmission systemMAILIS, S; VAINOS, N. A.Applied optics. 1993, Vol 32, Num 35, pp 7285-7291, issn 0003-6935Article

Modelling the formation of optical waveguides produced in LiNbO₃ by laser induced thermal diffusion of lithium ionsMUIR, A. C; DANIELL, G. J; PLEASE, C. P et al.Applied physics. A, Materials science & processing (Print). 2006, Vol 83, Num 3, pp 389-396, issn 0947-8396, 8 p.Article

Pulsed amplification of continuous-wave signal fields in photorefractive BaTiO₃VAINOS, N. A; MAILIS, S; GOWER, M. C et al.Applied physics letters. 1992, Vol 60, Num 13, pp 1529-1531, issn 0003-6951Article

Locally Erasable Couplers for Optical Device Testing in Silicon on InsulatorTOPLEY, R; MARTINEZ-JIMENEZ, G; REED, G. T et al.Journal of lightwave technology. 2014, Vol 32, Num 9-12, pp 2248-2253, issn 0733-8724, 6 p.Article

Flexible coherent diffraction lithography by tunable phase arrays in lithium niobate crystalsPATURZO, M; GRILLI, S; MAILIS, S et al.Optics communications. 2008, Vol 281, Num 8, pp 1950-1953, issn 0030-4018, 4 p.Article

Surface domain inversion in ferroelectric lithium niobateBUSACCA, A. C; SONES, C. L; EASON, R. W et al.Ferroelectrics (Print). 2003, Vol 296, pp 91-97, issn 0015-0193, 7 p.Conference Paper

Ultrashort-pulse optically-assisted domain engineering in lithium niobateVALDIVIA, C. E; SONES, C. L; MAILIS, S et al.Ferroelectrics (Print). 2006, Vol 340, pp 75-82, issn 0015-0193, 8 p.Conference Paper

Microprinting and microetching of diffractive structures using ultrashort laser pulsesZERGIOTI, I; MAILIS, S; VAINOS, N. A et al.Applied surface science. 1999, Vol 138-39, pp 82-86, issn 0169-4332Conference Paper

Indium oxide thin-film holographic recorders grown by excimer laser reactive sputteringGRIVAS, C; GILL, D. S; MAILIS, S et al.Applied physics. A, Materials science & processing (Print). 1998, Vol 66, Num 2, pp 201-204, issn 0947-8396Article

Laser-induced-forward-transfer: a rapid prototyping tool for fabrication of photonic devicesSONES, C. L; KAUR, K. S; GANGULY, P et al.Applied physics. A, Materials science & processing (Print). 2010, Vol 101, Num 2, pp 333-338, issn 0947-8396, 6 p.Article

Ultraviolet laser-induced sub-micron periodic domain formation in congruent undoped lithium niobate crystalsSONES, C. L; VALDIVIA, C. E; SCOTT, J. G et al.Applied physics. B, Lasers and optics (Print). 2005, Vol 80, Num 3, pp 341-344, issn 0946-2171, 4 p.Article

UV laser-induced ordered surface nanostructures in congruent lithium niobate single crystalsMAILIS, S; SONES, C. L; SCOTT, J. G et al.Applied surface science. 2005, Vol 247, Num 1-4, pp 497-503, issn 0169-4332, 7 p.Conference Paper

Holographic recording mechanisms of gratings in indium oxide films using 325 nm helium-cadmium laser irradiationGRIVAS, C; MAILIS, S; EASON, R. W et al.Applied physics. A, Materials science & processing (Print). 2002, Vol 74, Num 4, pp 457-465, issn 0947-8396Article

Electro-optic modulated phase array in hexagonally poled lithium niobate for flexible array illuminator devicePATURZO, M; DE NICOLA, P. Ferraro S; DE NATALE, P et al.Ferroelectrics (Print). 2007, Vol 352, pp 94-99, issn 0015-0193, 6 p.Conference Paper

Permanent holographic recording in indium oxide thin films using 193 nm excimer laser radiationPISSADAKIS, S; MAILIS, S; REEKIE, L et al.Applied physics. A, Materials science & processing (Print). 1999, Vol 69, Num 3, pp 333-336, issn 0947-8396Article

Microdeposition of metal and oxide structures using ultrashort laser pulsesZERGIOTI, I; MAILIS, S; VAINOS, N. A et al.Applied physics. A, Materials science & processing (Print). 1998, Vol 66, Num 5, pp 579-582, issn 0947-8396Article

Study of the ambient optical recording dynamics on sputtered indium oxide thin filmsMOSCHOVIS, K; GAGAOUDAKIS, E; CHATZITHEODORIDIS, E et al.Applied physics. A, Materials science & processing (Print). 1998, Vol 66, Num 6, pp 651-654, issn 0947-8396Article

Microdeposition of metals by femtosecond excimer laserZERGIOTI, I; MAILIS, S; VAINOS, N. A et al.Applied surface science. 1998, Vol 127-29, pp 601-605, issn 0169-4332Conference Paper

Ordered nano-scale domains in lithium niobate single crystals via phase-mask assisted all-optical polingWELLINGTON, I. T; VALDIVIA, C. E; SONO, T. J et al.Applied surface science. 2007, Vol 253, Num 9, pp 4215-4219, issn 0169-4332, 5 p.Article

Tunable two-dimensional hexagonal phase array in domain-engineered Z-cut lithium niobate crystalPATURZO, M; DE NATALE, P; DE NICOLA, S et al.Optics letters. 2006, Vol 31, Num 21, pp 3164-3166, issn 0146-9592, 3 p.Article

A Raman study of single-crystal congruent lithium niobate following electric-field repolingSCOTT, J. G; MAILIS, S; SONES, C. L et al.Applied physics. A, Materials science & processing (Print). 2004, Vol 79, Num 3, pp 691-696, issn 0947-8396, 6 p.Article

Surface hexagonally poled lithium niobate waveguidesBUSACCA, A. C; SONES, C. L; EASON, R. W et al.Ferroelectrics (Print). 2003, Vol 295, pp 3-8, issn 0015-0193, 6 p.Conference Paper

Etch frustration in congruent lithium niobate single crystals induced by femtosecond ultraviolet laser irradiationMAILIS, S; BROWN, P. T; SONES, C. L et al.Applied physics. A, Materials science & processing (Print). 2002, Vol 74, Num 2, pp 135-137, issn 0947-8396Article

Growth and characterization of pulsed laser deposited lead germanate glass optical waveguidesMAILIS, S; RIZIOTIS, C; JI WANG et al.Optical materials (Amsterdam). 1999, Vol 12, Num 1, pp 27-33, issn 0925-3467Article