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Pump-Push-Probe for Ultrafast All-Optical Switching: The Case of a Nanographene Molecule

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arxiv 1812.08481 v1 pith:UBMSRTBB submitted 2018-12-20 physics.chem-ph

Pump-Push-Probe for Ultrafast All-Optical Switching: The Case of a Nanographene Molecule

classification physics.chem-ph
keywords moleculeswitchingadvantageall-opticalapplicationsbeenchargeconjugated
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In the last two decades, the three-beams pump-push-probe (PPP) technique has become a well-established tool for investigating the multidimensional configurational space of a molecule, as it permits to disclose precious information about the multiple and often complex deactivation pathways of the excited molecule. From the spectroscopic point of view, such a tool has revealed details about the efficiency of charge pairs generation and conformational relaxation in p-conjugated molecules and macromolecules. In addition, PPP has been effectively utilised for modulating the gain signal in conjugated materials by taking advantage of the spectral overlap between stimulated emission and charge absorption in those systems. However, the relatively low stability of conjugated polymers under intense photoexcitation has been a crucial limitation for their real employment in plastic optical fibres (POFs) and for signal control applications. Here, we highlight the role of PPP for achieving ultrafast all-optical switching in p-conjugated systems. Furthermore, we report new experimental data on optical switching of a newly synthesised graphene molecule, namely dibenzo[hi,st]ovalene (DBOV). The superior environmental and photostability of DBOV and, in general, of graphene nanostructures can represent a great advantage for their effective applications in POFs and information and communications technology.

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