Prof. Eric Akkermans

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Books and Reviews

Books

  1. Eric Akkermans and Gilles Montambaux, “Physique mesoscopique des electrons et des photons,” EDPSciences, CNRS Editions, 2004.
  2. Eric Akkermans and Gilles Montambaux, “Mesoscopic Physics of electrons and photons,” Cambridge University press, 2007.

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Reviews

Weak localization, electronic transport and mesoscopic physics of photons
  1. R. Maynard, E. Akkermans and P. E. Wolf, Coherent backscattering and weak localization phenomena in optics and in metals: Analogies and differences” in Chance and matter, J. Souletie, J. Vannimenus, and R. Stora (eds.), Les Houches Summer School (session XLVI), North Holland (1987), 383–394.
  2. E. Akkermans and G. Montambaux, “Coherent multiple scattering in disordered media” in Advance study institute on “Waves and Imaging through Complex Media”, P. Sebbah (ed.), Kluwer (2001), 29–52.
  3. E. Akkermans and G. Montambaux, “Coherent effects in the multiple scattering of light in random media” in Advanced study institute on “Wave scattering in complex media: from theory to applications”, B. van Tiggelen and S. E. Skipetrov (eds.), Kluwer (2003), 101–124.
  4. E. Akkermans and G. Montambaux, “Mesoscopic physics of photons“, J. Opt. Soc. Am., B21, (2004), 101–112
  5. S. Roche, E. Akkermans, O. Chauvet, F. Hekking, J.-P. Issi, R. Martel, G. Montambaux and Ph. Poucharal, “Transport Properties” in Understanding Carbon Nanotubes: from Basics to Application, Lect. Notes Phys. 677, (2006), 335–437
Topological features in low dimensional systems and vortices in mesoscopic superconductors
  1. E. Akkermans and K. Mallick, “Geometrical description of vortices in Ginzburg-Landau billiards” in Topological Aspects of low dimensional systems, Les Houches Summer School (session LXIX), Springer (1999), 845–877.
Waves, fields and statistical mechanics on fractals
  1. E. Akkermans, “Statistical Mechanics and Quantum Fields on Fractals” in Fractal Geometry and Dynamical Systems in Pure and Applied Mathematics II: Fractals in Applied Mathematics, D. Cafri, M. L. Lapidus, E. P. J. Pearse and M. van Frankenhuijsen (Eds.), Contemporary Mathematics (2013), 1–21.
  2. E. Akkermans, G. V. Dunne and E. Levy, “Wave Propagation in One Dimension: Methods and Applications to Complex and Fractal Structures” in Optics of Aperiodic Structures, L. Dal Negro (ed.), Pan Standord Publishing (2014), 407–449.
  3. O. Ovdat and E. Akkermans, The breaking of continuous scale invariance to discrete scale invariance: a universal quantum phase transition, in Fractal Geometry and Stochastics VI, U. Freiberg, B. Hambly, M. Hinz and S. Winter (eds.),  Springer, Birkhäuser Basel (2020), arXiv:1909.05505.

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Memorials

  1. E. Akkermans, M. Campillo, G. Deutscher, M. Fink, A. Lagendijk, S. Skipetrov, B. van Tiggelen, P.-E. Wolf, M. Spiro, A. Fontaine, A. Minguzzi and Frank Hekking, “Roger Maynard 1938–2015,” Eur. Phys. J. Special Topics 226, 1349–1352, 2017.

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