From optics to hydrodynamics, shock and rogue waves are widespread. Although they appear as distinct phenomena, transitions between extreme waves are allowed. However, these have never been experimentally observed because control strategies are still missing. We introduce the new concept of topological control based on the one-to-one correspondence between the number of wave packet oscillating phases and the genus of toroidal surfaces associated with the nonlinear Schrödinger equation solutions through Riemann theta functions. We demonstrate the concept experimentally by reporting observations of supervised transitions between waves with different genera. Considering the box problem in a focusing photorefractive medium, we tailor the time-dependent nonlinearity and dispersion to explore each region in the state diagram of the nonlinear wave propagation. Our result is the first realization of topological control of nonlinear waves. This new technique casts light on shock and rogue waves generation and can be extended to other nonlinear phenomena.
Topological control of extreme waves / Marcucci, G.; Pierangeli, D.; Agranat, A. J.; Lee, R. -K.; Delre, E.; Conti, C.. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - 10:1(2019). [10.1038/s41467-019-12815-0]
Topological control of extreme waves
Marcucci G.
Primo
Writing – Original Draft Preparation
;Pierangeli D.Secondo
Investigation
;DelRe E.Penultimo
Supervision
;Conti C.Ultimo
Supervision
2019
Abstract
From optics to hydrodynamics, shock and rogue waves are widespread. Although they appear as distinct phenomena, transitions between extreme waves are allowed. However, these have never been experimentally observed because control strategies are still missing. We introduce the new concept of topological control based on the one-to-one correspondence between the number of wave packet oscillating phases and the genus of toroidal surfaces associated with the nonlinear Schrödinger equation solutions through Riemann theta functions. We demonstrate the concept experimentally by reporting observations of supervised transitions between waves with different genera. Considering the box problem in a focusing photorefractive medium, we tailor the time-dependent nonlinearity and dispersion to explore each region in the state diagram of the nonlinear wave propagation. Our result is the first realization of topological control of nonlinear waves. This new technique casts light on shock and rogue waves generation and can be extended to other nonlinear phenomena.| File | Dimensione | Formato | |
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Marcucci_Topological_2019.pdf
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Marcucci_Supplementary-material_2019.pdf
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