Category: Projects

Solitons and Black Holes in the Sine-Gordon Equation

The intriguing connection between black holes’evaporation and physics of solitons is opening novel roads to finding observable phenomena. It is known from the inverse scattering transform that velocity is a fundamental parameter in solitons theory. Taking this into account, the study of Hawking radiation by a moving soliton gets a growing relevance. However, a theoretical context for the description of this phenomenon is still lacking. Here, we adopt a soliton geometrization technique to study the quantum emission of a moving soliton in a one-dimensional model. Representing a black hole by the one soliton solution of the Sine-Gordon equation, we consider Hawking emission spectra of a quantized massless scalarfield on the soliton-induced metric. We study the relation between the soliton velocity and the black hole temperature. Our results address a new scenario in the detection of new physics in the quantum gravity panorama.

L. Villari, G. Marcucci, M.C. Braidotti and C. Conti, J. Phys. Comm. 2 (2018) 005016

Quantum-gravity-slingshot: orbital precession due to the modified uncertainty principle, from analogs to tests of Planckian physics with quantum fluids

Modified uncertainty principle and non-commutative variables may phenomenologically account for quantum gravity effects, independently of the considered theory of quantum gravity. We show that quantum fluids enable experimental analogs and direct tests of the modified uncertainty principle expected to be valid at the Planck scale. We consider a quantum clock realized by a long-lasting quantum fluid wave-packet orbiting in a trapping potential. We investigate the hydrodynamics of the Schr\”odinger equation encompassing kinetic terms due to Planck-scale effects. We study the resulting generalized mechanics and validate the predictions by quantum simulations. Wave-packet orbiting generates a continuous amplification of the quantum gravity effects. The non-commutative variables in the phase-space produce a precession and an acceleration of the orbital motion. The precession of the orbit is strongly resembling the famous orbital precession of the perihelion of Mercury used by Einstein to validate the corrections of general relativity to Newton’s theory. In our case, the corrections are due to the modified uncertainty principle. The results can be employed to emulate quantum gravity in the laboratory, or to realize human-scale experiments to determine bounds for the most studied quantum-gravity models and probe Planckian physics.

Giulia Marcucci and Claudio Conti, arXiv:1805.03600

Impressive Web-impact of the graphene 3D bone-printing !

Web-Press release on graphene for 3D bone-printing

https://www.cnr.it/it/comunicato-stampa/7895/foglietti-di-grafene-come-stampi-per-costruire-nuove-protesi-ossee-personalizzate

http://www.vivienna.it/2018/01/25/foglietti-di-grafene-come-stampi-per-costruire-nuove-protesi-ossee-personalizzate/

https://agensir.it/quotidiano/2018/1/24/ricerca-scientifica-universita-cattolicacnr-sviluppati-foglietti-di-grafene-come-stampi-per-costruire-nuove-protesi-ossee-personalizzate/

http://www.popsci.it/protesi-osseein-futuro-saranno-con-foglietti-di-grafene.html

https://isnello.virgilio.it/notizielocali/foglietti_di_grafene_come_stampi_per_costruire_nuove_protesi_ossee_personalizzate-54268140.html

http://www.adnkronos.com/soldi/economia/2018/01/24/grafene-arrivo-protesi-ossee-tessuti-antifiamma_S23zoadjJRR2FB1Ts5dgYO.html

Ricerca, foglietti di grafene per la stampa di protesi ossee su misura

http://www.agenziarepubblica.it/foglietti-grafene-stampi-costruire-nuove-protesi-ossee-personalizzate/

http://www.lescienze.it/lanci/2018/01/24/news/cnr_foglietti_di_grafene_come_stampi_per_costruire_nuove_protesi_ossee_personalizzate-3833161/

Download  web-press-release here :  CNR Web Release

Download full web-press-release (33MB) :  CNR Web Release full