1985
DOI: 10.1103/physrevb.31.6360
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Size-dependent photoabsorption and photoemission of small metal particles

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Cited by 499 publications
(291 citation statements)
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“…Despite its simplicity, the JM captures the collective plasmonic modes of the conduction electrons at the surface in individual nanoparticles and nanoparticle dimers. 56,59,60,92 The JM has also been successfully used to model effects associated with conduction electrons in a variety of metallic systems such as in electronic and optical properties of metal clusters and surfaces, [93][94][95][96] charge transfer reactions between atoms and surfaces, 97 conductances of molecular junctions, 98 and strong-eld effects. 99 The second part of this section will discuss the basis of the QCM, i.e., how to incorporate the optical conductivity derived from a quantum mechanical calculation into the classical calculations of the plasmonic response (Subsection 2.3).…”
Section: Implementation Of the Local Qcmmentioning
confidence: 99%
“…Despite its simplicity, the JM captures the collective plasmonic modes of the conduction electrons at the surface in individual nanoparticles and nanoparticle dimers. 56,59,60,92 The JM has also been successfully used to model effects associated with conduction electrons in a variety of metallic systems such as in electronic and optical properties of metal clusters and surfaces, [93][94][95][96] charge transfer reactions between atoms and surfaces, 97 conductances of molecular junctions, 98 and strong-eld effects. 99 The second part of this section will discuss the basis of the QCM, i.e., how to incorporate the optical conductivity derived from a quantum mechanical calculation into the classical calculations of the plasmonic response (Subsection 2.3).…”
Section: Implementation Of the Local Qcmmentioning
confidence: 99%
“…36 For such sizes, the Ag band-structure remains intact. The ground state energy spectrum and wave-functions were obtained by solving the Kohn-Sham equations for jellium model 29 with the Gunnarsson-Lundqvist exchange-correlation potential; 37 the interaction strength was appropriately modified to account for static d-band screening. The ground state density of sp-band electrons, n(r), exhibits characteristic Friedel oscillations, while the spatial extent of spillover is ≃ 2 a.u.…”
Section: Numerical Results and Discussionmentioning
confidence: 99%
“…28 Thus, in small nanoparticles, the enhancement magnitude is determined by a delicate interplay of competing quantum-size effects, and must, therefore, be described within a consistent microscopic approach. Such an approach, based on time-dependent local density approximation (TDLDA), 29 is developed in this paper.…”
Section: Introductionmentioning
confidence: 99%
“…In the usual first-order TDLDA at T e = 0 in the frequency domain, the induced electron density δn(r; ω) is related to δV ext (r ′ ; ω), the Fourier transform (with respect to time) of the external time-dependent potential (generated, for instance, by the electric field of a laser beam), via the relation [50,52,60] δn(r; ω) = χ(r, r ′ ; ω) δV ext (r ′ ; ω) dr ′ (13) where χ(r, r ′ ; ω) is the retarded density correlation function or the dynamic response function. It is possible to rewrite the induced density as…”
Section: Excited Statesmentioning
confidence: 99%
“…This approximation was first introduced by Zangwill and Soven [50] in the context of atomic physics for the study of photoionization in rare gases. Subsequently, this formalism has been successfully extended to the study of more and more complex electron systems: molecules [51], simple metal clusters [52], noble metal clusters [53], thin metal films [54], quantum dots [55], and condensed phase systems [38].…”
Section: Applicationmentioning
confidence: 99%