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pro vyhledávání: '"Javier Perez-Moreno"'
Autor:
Edward A. Boardman, Koen Clays, Javier Perez-Moreno, Jacqueline M. Cole, Tze-Chia Lin, Christopher M. Ashcroft
Publikováno v:
The Journal of Physical Chemistry C. 123:665-676
Faster transmission rates are desperately needed in the telecommunications industry, given that global demand for signal transmission already outstrips supply. New organic nonlinear optical (NLO) materials offer a prospective solution for the telecom
Autor:
Andrew Higginbotham, Tze Chia Lin, Javier Perez-Moreno, Alison J. Edwards, Perumal Venkatesan, Philip Pattison, Yizhou Tan, Andivelu Ilangovan, Koen Clays, Christopher M. Ashcroft, Ross O. Piltz, Jacqueline M. Cole
Publikováno v:
The Journal of Physical Chemistry C. 120:29439-29448
Advanced organic nonlinear optical (NLO) materials have attracted increasing attention due to their multitude of applications in modern telecommunication devices. Arguably the most important advantage of organic NLO materials, relative to traditional
Publikováno v:
Molecular Physics. 114:2248-2252
Bis(2-methyl-8-quinolinato)-4-phenylphenolate aluminium (BAlq) does not show phosphorescence. Only in the presence of an emitting sensitiser and at low temperature, phosphorescent emission has been reported from this molecule. We report for the first
Autor:
Javier Perez-Moreno
Publikováno v:
SPIE Proceedings.
Previous studies on the radiation effects upon polymer and polymer-based photonic materials suggest that the radiation resistance of the material is heavily dependent on the choice of polymer-host and guest-chromophore. The best results to date have
Autor:
Javier Perez-Moreno
Publikováno v:
Journal of the Optical Society of America B. 33:E171
Using the sum-rules, the sum-over-states expression for the diagonal term of first hyperpolarizability can be expressed as the sum of three-state interaction terms. We study the behavior of a generic three-state term to show that is possible to tune
Publikováno v:
Journal of the Optical Society of America B. 33:E57
The scaling of the fundamental limits of the second hyperpolarizability is used to define the intrinsic second hyperpolarizability, which aids in identifying material classes with ultralarge nonlinear-optical response per unit of molecular size. The