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Light localization into optical spatial solitons can be achieved by launching optical beams in nonlocal nonlinear nematic liquid crystals. Such solitons often undergo undesired fluctuations of their trajectories. We demonstrate that partial polymerization in monoacrylate-doped nematic liquid crystals is effective in quenching such fluctuations in transverse space.

Karimi, N., Alberucci, A., Virkki, M., Priimägi, A., Kauranen, M., Assanto, G. (2016). quenching nematicon fluctuations via photostabilization. PHOTONICS LETTERS OF POLAND, 8(1), 2-4.

quenching nematicon fluctuations via photostabilization

ALBERUCCI, ALESSANDRO;ASSANTO, GAETANO
2016-01-01

Abstract

Light localization into optical spatial solitons can be achieved by launching optical beams in nonlocal nonlinear nematic liquid crystals. Such solitons often undergo undesired fluctuations of their trajectories. We demonstrate that partial polymerization in monoacrylate-doped nematic liquid crystals is effective in quenching such fluctuations in transverse space.
Karimi, N., Alberucci, A., Virkki, M., Priimägi, A., Kauranen, M., Assanto, G. (2016). quenching nematicon fluctuations via photostabilization. PHOTONICS LETTERS OF POLAND, 8(1), 2-4.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/294468
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