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Strong coupling between a metallic nanoparticle and a single molecule Andi Trügler and Ulrich Hohenester Institut für Physik, Univ. Graz http://physik.uni-graz.at/~uxh Novotny group
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Cavity QED Atoms Artificial atoms Strong coupling K. Hennessy et al., Nature 445, 896 (2007).
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d ~ 1 / (10 fs) … but also g large (enhancement of r and nr ) Strong MNP - molecule coupling? P. Anger et al., Phys. Rev. Lett. 96, 113002 (2006).
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- Quantum theory of surface plasmons 1 - Open system dynamics for coupled MNP-molecule system - Results for spherical MNP and single molecule Goal of this work Strong MNP – molecule coupling ? Agenda 1 J. C. Ashley, T. L. Ferrell, and R. H. Ritchie, Phys. Rev. B 10, 554 (1974).
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Quantum mechanical MNP description Implicit dynamics Explicit dynamics Problem: Quantization of EM fields in presence of absorbing media ? Linear response:Fluctuation – dissipation theorem, microscopic dynamics hidden in ( ) or G Nonlinear response ? Use Drude model to describe electron dynamics in MNPs Advantage:Quantization of surface plasmons (nonlinear response OK) Is Drude description appropriate for Au or Ag ?
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Drude description Hot electron lifetimesDielectric function Drude ab initio I. G. Gurtubay et al., Phys. Rev. B 69, 245106 (2004). Johnson and Christy, Phys. Rev. B 6, 4370 (1972). Free electrons, dielectric background 0, plasmon damping ( )
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Surface plasmons Eigenmodes Free electrons moving in dielectric background … eigenmode expansion 1 1 U. Hohenester and J. Krenn, Phys. Rev. B 72, 195429 (2004). Quantization Electron current density described in terms of velocity potential ( r ) 2 2 J. C. Ashley, T. L. Ferrell, and R. H. Ritchie, Phys. Rev. B 10, 554 (1974).
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Surface plasmons Free electrons moving in dielectric background … eigenmode expansion 1 1 U. Hohenester and J. Krenn, Phys. Rev. B 72, 195429 (2004). Eigenmodes Interaction Hamiltonian Coupling between molecule dipole and surface plasmons
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Quantum mechanical description Hamilton operator Molecule, quantized surface plasmons, interaction, light – matter coupling Master equation Lindblad form 1 for environement coupling (plasmon damping, photons) 1 Walls and Milburn, Quantum Optics (Springer, Berlin, 1995). Fluoresence spectra computed through quantum – regression theorem
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dipole quadrupole PlasmonMolecule 0 1 2 2´ hv exc Simulation setup Molecule excitation to auxiliary state 2 Internal relaxation to optically active state 1 Plasmon – mediated relaxation Novotny group
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Molecule-MNP coupling z Diameter … 20 nm Transition energy … 2.3 eV Weak coupling For weak coupling (small molecule dipole) we can compare with Mie theory
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Molecule-MNP coupling Strong coupling Molecule dipole moment for rhodamin 6G (15 Debye) Strong coupling ? Not for dipole, but only for higher modes !
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Fluorescence spectra PlasmonMolecule Dipole mode driven by broadened hybrid plasmon - molecule mode Hybrid plasmon - molecule mode
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d=3.5 nm d=2 nm Fluorescence decay
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Polaritons Hybrid MNP – molecule modes Eigenstates of master equation provide polariton modes with complex energies Anticrossing … strong coupling
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- Quantum theory of surface plasmons - Open system dynamics for coupled MNP-molecule system - Strong coupling between MNP and molecule is possible Summary - Different particle shapes and coupled MNPs - Förster – type energy transfer - Superradiance of many molecules ? Outlook
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