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Enhanced Femtosecond Nonlinearities and Multiphoton Absorptions in Discrete Bands of Porphyrins

Mohd Shanu, Jitendra Nath Acharyya, Muniappan Sankar, G. Vijaya Prakash

2023Inorganic Chemistry26 citationsDOI

Abstract

Optical nonlinearities of discrete absorption energy levels of one of the typical heterocyclic aromatic molecules, free-base porphyrins, have been probed over a broad spectral region (400–1600 nm) utilizing intense femtosecond pulses. A wide range of strong one- and multiphoton-induced nonlinear absorptions of both the blue-end Soret (B) band (a u → b 1g ) and red-end orbital mixing split quasi-allowed Q-bands (Q x (0,0; 0,1), Q y (0,0; 0,1), a u → e g ) are critically probed and reported. During the resonant excitation within B- (400 nm) and Q-bands (600–750 nm), the nonlinear absorption has become predominant by the saturation of absorption (SA) of the one-photon absorption (1PA) process due to ground-state bleaching. At nonresonant wavelengths, it is dominated by the reverse saturation of absorption (RSA), involving various nonlinear processes of two-, three-, and four-photon (2PA, 3PA, and 4PA) absorptions, either to B- or Q-bands (1100–1600 nm). The laser intensity-dependent nonresonant (2PA, 800 nm) excitations for the prominent B-band show a distinct cross-over from SA to RSA, contributed by the excited-state absorption (ESA) utilizing a three-photon induced (3PA) process, whereas resonant (1PA, 400 nm) excitation reveals a systematic strong SA process. Both wavelength- and intensity-dependent nonlinear refractive index studies exhibit positive electronic Kerr-based self-focusing effects, with prominent contributions of nonlinear absorption and higher-order effects. The spectrally discrete, highly intense laser probing of individual energy bands and the consequent variety of nonlinearities can be broadly generalized for many free-base porphyrins and metalloporphyrins. The present studies provide a strong foundation and new insight into the broad categories of macrocycles, such as porphyrins and phthalocyanines, for myriad applications in nonlinear optics and bio/optophotonics.

Topics & Concepts

ChemistryFemtosecondAbsorption (acoustics)Excited stateExcitationTwo-photon absorptionAtomic physicsLaserAbsorption spectroscopySaturation (graph theory)WavelengthAbsorption bandMolecular physicsNonlinear opticsAnalytical Chemistry (journal)OpticsPhysicsChromatographyQuantum mechanicsCombinatoricsMathematicsNonlinear Optical Materials StudiesPorphyrin and Phthalocyanine ChemistryPhotochemistry and Electron Transfer Studies
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