Recent papers

"Geometry-controlled nonlinear optical response of quantum graphs," S. Shafei, R. Lytel, and M.G. Kuzyk, arXiv:1208.2086 (2012). (J. Opt. Soc. Am. B 29, 3419 (2012)).

"The influence of geometry and topology of quantum graphs on their nonlinear-optical properties," R. Lytel, S. Shafei, and M.G. Kuzyk, arXiv: 1207.6336 (2013). (Phys. Rev. A 87, 043824 (2013)).

"Scaling and universality in nonlinear optical quantum graphs containing star motifs," R. Lytel, S. Shafei, and M.G. Kuzyk, arXiv: 1305.4334 (2013). In review.

"Dressed quantum graphs with optical nonlinearities approaching the fundamental limit," R. Lytel and M.G. Kuzyk, arXiv: 1308.6800 (2013). In review.

"Topological optimization of nonlinear optical quantum wire networks," R. Lytel, S. Shafei, and M.G. Kuzyk, SPIE, in press.

"Nonlinear optics of quantum graphs," R. Lytel, S. Shafei, and M.G. Kuzyk, Proc. SPIE 8474, 84740O-1 (2012).

"Using geometry to enhance the nonlinear response of quantum confined systems," S. Shafei, R. Lytel, and M.G. Kuzyk, Proc. SPIE 8474, 8474OP-1 (2012).

Recent talks

Dressed quantum graphs, R. Lytel, Lecture (2013).

Cartesian and spherical tensors for NLO, R. Lytel, Lecture (2013).

Topological optimization of nonlinear optical quantum wire networks, invited talk, SPIE 8474 (2013).

Full compilation