Time Travel is NOT Possible (press release)

Time travel is not possible*

Press release on the Templeton project, Generalized Uncertainty Principle and The Photon (2015-2018)

Our paper on the Glauber oscillator and Time Travel had a relevant impact in the press …

http://www.repubblica.it/scienze/2015/11/06/news/ritorno_al_futuro_rassegnamoci_i_viaggi_nel_tempo_sono_impossibili-126767806/

http://www.ansa.it/scienza/notizie/rubriche/fisica/2015/11/06/ritorno-al-futuro-i-viaggi-nel-tempo-sono-impossibili_70ced271-9136-4996-ac6b-44d0ac732da0.html

http://www.media.inaf.it/2015/11/06/viaggi-nel-tempo-indietro-non-si-torna/

http://m.vanityfair.it/news/italia/15/11/07/scienza-dice-non-si-torna-indietro-nel-tempo

Comprehensive press release pdf files:

Rassegna stampa_cs_viaggi nel tempo (pdf 1)

Rassegna stampa_cs_viaggi nel tempo (pdf 2)

*maybe, if you are subnuclear particle in proximity of a supermassive black hole you may have some chances to go back in time for a femtosecond

Physics without equations? (school/workshop at ROME!)

July 24 – August 4

People think that equations are not needed if we have a lot of data and the way to organize them… is this true?

Are equations useless for complex systems?

Are computers able to derive models for complex-systems more effectively than humans?

We are announcing the International School and Workshop in collaboration with the University of Washington in Rome!

Data-Driven Methods for Multi-Scale Physics and Complex Systems

An interdisciplinary initiative aimed at committing together different disciplines with the data-driven physics!

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Lasing in curved geometry

A paper by Hong et al reports about lasing emission on modes sustained by local curvature.

The use of geometrical constraints opens many new perspectives in photonics and in fundamental studies of nonlinear waves. By implementing surface structures in vertical cavity surface emitting lasers as manifolds for curved space, we experimentally study the impacts of geometrical constraints on nonlinear wave localization. We observe localized waves pinned to the maximal curvature in an elliptical-ring, and confirm the reduction in the localization length of waves by measuring near and far field patterns, as well as the corresponding dispersion relation. Theoretically, analyses based on a dissipative model with a parabola curve give good agreement remarkably to experimental measurement on the transition from delocalized to localized waves. The introduction of curved geometry allows to control and design lasing modes in the nonlinear regime.

Quantum X Waves with Orbital Angular Momentum in Nonlinear Dispersive Media

Marco Ornigotti, Claudio Conti and Alex Szameit develop a rigorous theory of propagation invariant “X-wave” pulses with orbital angular momentum. These new photon states form and propagate in quadratic and cubic nonlinear media, and represent a novel tool for quantum information and entanglement. X-waves also allow a new 3D+1 representation of the propagation of light in nonlinear media as a spinning quantum fluid.