2003
DOI: 10.1103/physrevb.68.085318
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Second-harmonic generation in arrays of spherical particles

Abstract: We calculate the optical second harmonic ͑SH͒ radiation generated by small spheres made up of a homogeneous centrosymmetric material illuminated by inhomogeneous transverse and/or longitudinal electromagnetic fields. We obtain expressions for the hyperpolarizabilities of the particles in terms of the multipolar bulk susceptibilities and dipolar surface susceptibilities of their constitutive material. We employ the resulting response functions to obtain the nonlinear susceptibilities of a composite medium made … Show more

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Cited by 62 publications
(64 citation statements)
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“…[13] for the nonlinear response of a single sphere of nanoscopic dimensions made up of a centrosymmetric material. Although the centrosymmetry is locally lost close to the surface of each sphere, opposite sides acquire different polarizations according to their orientation with respect to the applied field.…”
Section: Nonlinear Response Of a Single Spherementioning
confidence: 99%
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“…[13] for the nonlinear response of a single sphere of nanoscopic dimensions made up of a centrosymmetric material. Although the centrosymmetry is locally lost close to the surface of each sphere, opposite sides acquire different polarizations according to their orientation with respect to the applied field.…”
Section: Nonlinear Response Of a Single Spherementioning
confidence: 99%
“…Under these assumptions expressions for the nonlinear polarizabilities g n , n ¼ e; m; q;q q of a single sphere may be obtained [13] in terms of the dipolarly allowed surface response functions (namely, the dimensionless functions aðwÞ, bðwÞ and f ðwÞ which are commonly used to parametrize the response of a flat, homogeneous surface [14,15]), and the quadrupolarly allowed bulk response (gðwÞ and d 0 ðwÞ) of a flat semiinfinite homogeneous isotropic material [16]. Thus, we may take advandtage of various models and measurements of those intrinsic response functions to obtain the non linear susceptibility of small particles.…”
Section: Nonlinear Response Of a Single Spherementioning
confidence: 99%
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“…The response of small particles can be modeled by Second-Harmonic Rayleigh Scattering [43][44][45][46]. For small particles of low refractive index contrast, which do not significantly perturb the incident field, also the Rayleigh-Gans-Debye approximation can be used [47][48][49][50][51].…”
Section: Introductionmentioning
confidence: 99%