Light-induced second-harmonic generation in azo-dye polymers

Charra, Fabrice; Kajzar, F.; Nunzi, Jean‐Michel; Raimond, Paul; Idiart, E.

doi:10.1364/ol.18.000941

Cited by 201 publications

(92 citation statements)

References 11 publications

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“…First, it leads to the generation of second harmonic radiation from a medium which is macroscopically isotropic. [10][11][12][13][14][15][16][17] Second, it has been demonstrated that by employing this experiment in a time resolved geometry it is possible to extract quite new information on the orientational dynamics of solutions. 10 The purpose of this paper is to treat the theory underlying a nondegenerate sixwave mixing processes in a rigorous and fully quantized manner, to compare the results with experimental measurements, and to act as a precursor to a forthcoming one on dynamical aspects.…”

Section: Introductionmentioning

confidence: 99%

A quantum electrodynamical treatment of second harmonic generation through phase conjugate six-wave mixing: Polarization analysis

Hands

Lin

Meech

et al. 1998

The Journal of Chemical Physics

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The theory underlying a six-wave mixing experiment is developed using the methods of molecular quantum electrodynamics. This general theory allows the intensity of the second harmonic radiation generated by the six-wave process to be found for arbitrary arrangements of the generating laser beams. Several different polarization geometries are treated in detail, and comparison is made to experiments performed using near-resonant conditions. The agreement is good in all cases and allows detailed information pertaining to the six-wave tensor to be extracted. The information thus obtained provides evidence of a marked departure from Kleinman symmetry.

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Section: Introductionmentioning

confidence: 99%

A quantum electrodynamical treatment of second harmonic generation through phase conjugate six-wave mixing: Polarization analysis

Hands

Lin

Meech

et al. 1998

The Journal of Chemical Physics

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“…[16][17][18] Relations closely related to (5) have also been derived by several other groups considering the effect of simultaneous irradiation at ω and 2ω. Most often the experimentally straightforward case of co-propagation of ω and 2ω has been considered.…”

Section: Measurementmentioning

confidence: 89%

“…8,9,[13][14][15] This was first demonstrated by Nunzi and co-workers, who have gone on to exploit the technique as a means of "optical poling" of polymers. [16][17][18] Our objective in this paper is to demonstrate that observations of the induced second harmonic intensity as a function of delay time records the decay, through orientational diffusion, of the induced polar order in solution. In particular we will provide experimental verification that this time delayed signal yields odd moments (l ) 1 and l ) 3) of the orientational distribution function.…”

Section: Introductionmentioning

confidence: 98%

Optically Induced Second Harmonic Generation by Six-wave Mixing: A Novel Probe of Solute Orientational Dynamics

et al. 1999

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The optically induced generation of second harmonics in isotropic media, which arises through a six-wave mixing interaction, is employed in ultrafast studies of orientational relaxation in solution (4-diethylamino-4′-nitrostilbene in a range of solvents). It is shown that polar order can be induced in the samples by simultaneous irradiation at the fundamental and second harmonic frequencies. Time-resolved experiments in nonpolar solvents show that the polar order (which supports second harmonic generation) decays as a biexponential function of time. The two time constants are linearly dependent on viscosity and fall in the ratio 6:1. This result is shown to be consistent with a simple model of the six-wave mixing interaction incorporating orientational diffusion. The two relaxation components arise through contributions from the first and third moments of the solute orientational distribution function, confirmed by the polarization dependence of the time-resolved signal. Thus, it has been demonstrated that odd moments of the orientational distribution function, required for a complete description of molecular orientation, are accessible through six-wave mixing experiments; such data are not available in four-wave mixing measurements. The measurements have been extended to polar solvents, where the accelerated population relaxation of the solute is apparent. The dynamics at early times in polar solvents are complex, an effect which is explained in terms of a time-dependent molecular hyperpolarizability.

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“…A significant number of polymers functionalized, in particular, with DR1 dye in the side chain are reported (Blanchard et al 1993a(Blanchard et al , 1993b as cited in Natansohn & Rochon, 2002;Loucif-Saibi et al, 1993 as cited in Natansohn & Rochon, 2002;Hill et al, 1995as cited in Natansohn & Rochon, 2002 to have been submitted to photoassisted alignment, thus achieving improved NLO properties. An all-optical poling, in which the aligning electric field is actually generated by the laser light has also been envisaged since 1993 on DR1M-MMA copolymer (Charra et al, 1993;Chalupczak et al, 1996) and subsequently applied to a new phosphine oxide azo-dye-MMA copolymer (Fiorini et al, 1997) achieving increased transparency with respect to the DR1 functionalized material, together with large secondorder properties. Differently from the polymeric DR1M-MMA material, efficient optical poling of thin films of norbornene functionalized with azo-dye have also been achieved, but without appreciable enhancement of second-order susceptibility, however, in the related polymeric poly-norbornene derivative, due probably to the increased rigidity of the polynorbornene backbone with respect to the poly-MMA backbone (Churikov et al, 2000).…”

Section: Fig 3 Statistical Photoorientation Of Azomoleculesmentioning

confidence: 99%