Ph.D. project literature database

The list is sorted reverse chronologically.
[Last update: August 2015]


  1. A. Brandstetter-Kunc, G. Weick, D. Weinmann, and R. A. Jalabert,
    “Decay of dark and bright plasmonic modes in a metallic nanoparticle dimer”,
    Phys. Rev. B 91, 035431 (2015)
  2. Y. Cao, A. Manjavacas, N. Large, and P. Nordlander,
    “Electron Energy-Loss Spectroscopy Calculation in Finite-Difference Time-Domain Package”,
    ACS Photonics 2, 369-375 (2015)
  3. R. Carminati, A. Cazé, D. Cao, F. Peragut, V. Krachmalnicoff, R. Pierrat, and Y. D. Wilde,
    “Electromagnetic density of states in complex plasmonic systems “,
    Surf. Sci. Rep. 70, 1 – 41 (2015)
  4. A. I. Dolinnyi,
    “Nanometric Rulers Based on Plasmon Coupling in Pairs of Gold Nanoparticles”,
    J. Phys. Chem. C 119, 4990-5001 (2015)
  5. S. Dutta-Gupta, and O. J. F. Martin,
    “Insight into the eigenmodes of plasmonic nanoclusters based on the Green’s tensor method”,
    J. Opt. Soc. Am. B 32, 194-200 (2015)
  6. J. Kim, J.-H. Song, K.-Y. Jeong, H.-S. Ee, and M.-K. Seo,
    “Full three-dimensional power flow analysis of single-emitter-plasmonic-nanoantenna system”,
    Opt. Express 23, 11080-11091 (2015)
  7. K. Kneipp, H. Kneipp, and J. Kneipp,
    “Probing plasmonic nanostructures by photons and electrons”,
    Chem. Sci. 6, 2721-2726 (2015)
  8. A. E. Krasnok, A. P. Slobozhanyuk, C. R. Simovski, S. A. Tretyakov, A. N. Poddubny, A. E. Miroshnichenko, Y. S. Kivshar, and P. A. Belov,
    “Antenna model of the Purcell effect”,
    , (2015)
  9. B. le Feber, N. Rotenberg, and L. Kuipers,
    “Nanophotonic control of circular dipole emission”,
    Nat. Commun. 6, – (2015)
  10. P. Lodahl, S. Mahmoodian, and S. Stobbe,
    “Interfacing single photons and single quantum dots with photonic nanostructures”,
    Rev. Mod. Phys. 87, 347-400 (2015)
  11. P. Stepanov, A. Delga, X. Zang, J. Bleuse, E. Dupuy, E. Peinke, P. Lalanne, J.-M. Gérard, and J. Claudon,
    “Quantum dot spontaneous emission control in a ridge waveguide”,
    Appl. Phys. Lett. 106, 041112 (2015)
  12. 2014

  13. A. Andryieuski, V. A. Zenin, R. Malureanu, V. S. Volkov, S. I. Bozhevolnyi, and A. V. Lavrinenko,
    “Direct Characterization of Plasmonic Slot Waveguides and Nanocouplers”,
    Nano Letters 14, 3925-3929 (2014)
  14. G. Angelatos, and S. Hughes,
    “Theory and design of quantum light sources from quantum dots embedded in semiconductor-nanowire photonic-crystal systems”,
    Phys. Rev. B 90, 205406 (2014)
  15. R. Antos, V. Vozda, and M. Veis,
    “Plane wave expansion method used to engineer photonic crystal sensors with high efficiency”,
    Opt. Express 22, 2562-2577 (2014)
  16. M. Arcari, I. Söllner, A. Javadi, S. Lindskov Hansen, S. Mahmoodian, J. Liu, H. Thyrrestrup, E. H. Lee, J. D. Song, S. Stobbe, and P. Lodahl,
    “Near-Unity Coupling Efficiency of a Quantum Emitter to a Photonic Crystal Waveguide”,
    Phys. Rev. Lett. 113, 093603 (2014)
  17. M. Arcari, I. Söllner, A. Javadi, S. L. Hansen, S. Mahmoodian, J. Liu, H. Thyrrestrup, E. H. Lee, J. D. Song, S. Stobbe, and P. Lodahl,
    “Near-unity coupling efficiency of a quantum emitter to a photonic-crystal waveguide”,
    , (2014)
  18. M. D. Birowosuto, A. Yokoo, G. Zhang, K. Tateno, E. Kuramochi, H. Taniyama, M. Takiguchi, and M. Notomi,
    “Movable high-Q nanoresonators realized by semiconductor nanowires on a Si photonic crystal platform”,
    Nat. Mater. 13, 279-285 (2014)
  19. A. Brandstetter-Kunc, G. Weick, D. Weinmann, and R. A. Jalabert,
    “How do the dark and bright plasmonic modes decay in a metallic nanoparticle dimer?”,
    , (2014)
  20. J. Butet, S. Dutta-Gupta, and O. J. F. Martin,
    “Surface second-harmonic generation from coupled spherical plasmonic nanoparticles: Eigenmode analysis and symmetry properties”,
    Phys. Rev. B 89, 245449 (2014)
  21. J. R. de Lasson, P. T. Kristensen, J. Mørk, and N. Gregersen,
    “Roundtrip matrix method for calculating the leaky resonant modes of open nanophotonic structures”,
    J. Opt. Soc. Am. A 31, 2142-2151 (2014)
  22. M. B. Doost, W. Langbein, and E. A. Muljarov,
    “Resonant-state expansion applied to three-dimensional open optical systems”,
    Phys. Rev. A 90, 013834 (2014)
  23. S. Ek, P. Lunnemann, Y. Chen, E. Semenova, K. Yvind, and J. Mørk,
    “Slow-light-enhanced gain in active photonic crystal waveguides”,
    Nat. Commun. 5, – (2014)
  24. Y. Elesin, B. Lazarov, J. Jensen, and O. Sigmund,
    “Time domain topology optimization of 3D nanophotonic devices “,
    Photonics Nanostruct. Fundam. Appl. 12, 23 – 33 (2014)
  25. L. H. Frandsen, Y. Elesin, L. F. Frellsen, M. Mitrovic, Y. Ding, O. Sigmund, and K. Yvind,
    “Topology optimized mode conversion in a photonic crystal waveguide fabricated in silicon-on-insulator material”,
    Opt. Express 22, 8525-8532 (2014)
  26. B. T. Gard, K. R. Motes, J. P. Olson, P. P. Rohde, and J. P. Dowling,
    “An introduction to boson-sampling”,
    , (2014)
  27. R.-C. Ge, and S. Hughes,
    “Design of an efficient single photon source from a metallic nanorod dimer: a quasi-normal mode finite-difference time-domain approach”,
    Opt. Lett. 39, 4235-4238 (2014)
  28. R.-C. Ge, P. T. Kristensen, J. F. Young, and S. Hughes,
    “Quasinormal mode approach to modelling light-emission and propagation in nanoplasmonics”,
    New J. Phys. 16, 113048 (2014)
  29. S. Haddadi, P. Hamel, G. Beaudoin, I. Sagnes, C. Sauvan, P. Lalanne, J. A. Levenson, and A. M. Yacomotti,
    “Photonic molecules: tailoring the coupling strength and sign”,
    Opt. Express 22, 12359-12368 (2014)
  30. V. Jandieri, K. Yasumoto, and J. Pistora,
    “Coupled-mode analysis of contra-directional coupling between two asymmetric photonic crystal waveguides”,
    J. Opt. Soc. Am. A 31, 518-523 (2014)
  31. S. Kadkhodazadeh, J. R. de Lasson, M. Beleggia, H. Kneipp, J. B. Wagner, and K. Kneipp,
    “Scaling of the Surface Plasmon Resonance in Gold and Silver Dimers Probed by EELS”,
    J. Phys. Chem. C 118, 5478-5485 (2014)
  32. P. T. Kristensen, and S. Hughes,
    “Modes and Mode Volumes of Leaky Optical Cavities and Plasmonic Nanoresonators”,
    ACS Photonics 1, 2-10 (2014)
  33. P. T. Kristensen, J. R. de Lasson, and N. Gregersen,
    “Calculation, normalization, and perturbation of quasinormal modes in coupled cavity-waveguide systems”,
    Opt. Lett. 39, 6359-6362 (2014)
  34. J. Küchenmeister,
    “Three-dimensional adaptive coordinate transformations for the Fourier modal method”,
    Opt. Express 22, 1342-1349 (2014)
  35. L. Lu, J. D. Joannopoulos, and M. Soljacic,
    “Topological photonics”,
    Nat. Photonics 8, 821-829 (2014)
  36. S. Maier, P. Gold, A. Forchel, N. Gregersen, J. Mørk, S. Höfling, C. Schneider, and M. Kamp,
    “Bright single photon source based on self-aligned quantum dot–cavity systems”,
    Opt. Express 22, 8136-8142 (2014)
  37. J. Mäkitalo, M. Kauranen, and S. Suuriniemi,
    “Modes and resonances of plasmonic scatterers”,
    Phys. Rev. B 89, 165429 (2014)
  38. D. Melati, A. Melloni, and F. Morichetti,
    “Real photonic waveguides: guiding light through imperfections”,
    Adv. Opt. Photon. 6, 156-224 (2014)
  39. J. Mork, Y. Chen, and M. Heuck,
    “Photonic Crystal Fano Laser: Terahertz Modulation and Ultrashort Pulse Generation”,
    Phys. Rev. Lett. 113, 163901 (2014)
  40. N. A. Mortensen, S. Raza, M. Wubs, T. Søndergaard, and S. I. Bozhevolnyi,
    “A generalized non-local optical response theory for plasmonic nanostructures”,
    Nat. Commun. 5, 5:3809 (2014)
  41. M. Muller, S. Bounouar, K. D. Jons, M. Glassl, and P. Michler,
    “On-demand generation of indistinguishable polarization-entangled photon pairs”,
    Nat. Photonics 8, 224-228 (2014)
  42. D. A. Powell,
    “Resonant dynamics of arbitrarily shaped meta-atoms”,
    Phys. Rev. B 90, 075108 (2014)
  43. D. A. Powell,
    “The resonant dynamics of arbitrarily-shaped meta-atoms”,
    , (2014)
  44. T. Reichert, S. Lichtmannecker, G. Reithmaier, M. Zeitlmair, J. Wembacher, A. Rauscher, M. Bichler, K. Müller, M. Kaniber, and J. J. Finley,
    “Highly directed emission from self-assembled quantum dots into guided modes in disordered photonic-crystal waveguides”,
    Phys. Rev. B 90, 115310 (2014)
  45. C. Sauvan, J. P. Hugonin, R. Carminati, and P. Lalanne,
    “Modal representation of spatial coherence in dissipative and resonant photonic systems”,
    Phys. Rev. A 89, 043825 (2014)
  46. I. Söllner, S. Mahmoodian, S. L. Hansen, L. Midolo, A. Javadi, G. Kiršanskė, T. Pregnolato, H. El-Ella, E. H. Lee, J. D. Son, S. Stobbe, and P. Lodahl,
    “A chiral spin-photon interface for scalable on-chip quantum-information processing”,
    , (2014)
  47. B. Vial, G. Demésy, F. Zolla, A. Nicolet, M. Commandré, C. Hecquet, T. Begou, S. Tisserand, S. Gautier, and V. Sauget,
    “Resonant metamaterial absorbers for infrared spectral filtering: quasimodal analysis, design, fabrication, and characterization”,
    J. Opt. Soc. Am. B 31, 1339-1346 (2014)
  48. B. Vial, F. Zolla, A. Nicolet, and M. Commandré,
    “Quasimodal expansion of electromagnetic fields in open two-dimensional structures”,
    Phys. Rev. A 89, 023829 (2014)
  49. E. Yeganegi, A. Lagendijk, A. P. Mosk, and W. L. Vos,
    “Local density of optical states in the band gap of a finite one-dimensional photonic crystal”,
    Phys. Rev. B 89, 045123 (2014)
  50. W. Yu, W. Yue, P. Yao, Y. Lu, and W. Liu,
    “Approach to calculate normal modes by decomposing the dyadic Green&x02019;s function”,
    Opt. Express 22, 26712-26719 (2014)
  51. T. R. Zhan, and S. T. Chui,
    “Theory of the spontaneous-decay enhancement in plasmonic nanoparticles based on a singularity representation of the scattering matrix”,
    Phys. Rev. A 90, 023802 (2014)
  52. 2013

  53. Q. Bai, M. Perrin, C. Sauvan, J.-P. Hugonin, and P. Lalanne,
    “Efficient and intuitive method for the analysis of light scattering by a resonant nanostructure”,
    Opt. Express 21, 27371-27382 (2013)
  54. D. A. Bykov, and L. L. Doskolovich,
    “Numerical Methods for Calculating Poles of the Scattering Matrix With Applications in Grating Theory”,
    J. Lightwave Technol. 31, 793-801 (2013)
  55. A. Carmele, J. Kabuss, F. Schulze, S. Reitzenstein, and A. Knorr,
    “Single Photon Delayed Feedback: A Way to Stabilize Intrinsic Quantum Cavity Electrodynamics”,
    Phys. Rev. Lett. 110, 013601 (2013)
  56. A. Cazé, R. Pierrat, and R. Carminati,
    “Spatial Coherence in Complex Photonic and Plasmonic Systems”,
    Phys. Rev. Lett. 110, 063903 (2013)
  57. G. Chen, Y.-C. Yu, X.-L. Zhuo, Y.-G. Huang, H. Jiang, J.-F. Liu, C.-J. Jin, and X.-H. Wang,
    Ab initio determination of local coupling interaction in arbitrary nanostructures: Application to photonic crystal slabs and cavities”,
    Phys. Rev. B 87, 195138 (2013)
  58. Y. Chen, and J. Mørk,
    “Theory of carrier depletion and light amplification in active slow light photonic crystal waveguides”,
    Opt. Express 21, 29392-29400 (2013)
  59. J. Claudon, N. Gregersen, P. Lalanne, and J.-M. Gérard,
    “Harnessing Light with Photonic Nanowires: Fundamentals and Applications to Quantum Optics”,
    ChemPhysChem 14, 2393-2402 (2013)
  60. J. R. de Lasson, J. Mørk, and P. T. Kristensen,
    “Three-dimensional integral equation approach to light scattering, extinction cross sections, local density of states, and quasi-normal modes”,
    J. Opt. Soc. Am. B 30, 1996-2007 (2013)
  61. M. B. Doost, W. Langbein, and E. A. Muljarov,
    “Resonant state expansion applied to two-dimensional open optical systems”,
    Phys. Rev. A 87, 043827 (2013)
  62. C. Fietz,
    “Absorbing boundary condition for Bloch-Floquet eigenmodes”,
    J. Opt. Soc. Am. B 30, 2615-2620 (2013)
  63. O. Gazzano, S. Michaelis de Vasconcellos, C. Arnold, A. Nowak, E. Galopin, I. Sagnes, L. Lanco, A. Lemaıtre, and P. Senellart,
    “Bright solid-state sources of indistinguishable single photons”,
    Nat. Commun. 4, 1425 (2013)
  64. R.-C. Ge, P. T. Kristensen, J. F. Young, and S. Hughes,
    “Quasimode expansion technique for light-matter interactions in nanoplasmonics”,
    , (2013)
  65. K. Gondaira, K. Ishizaki, and S. Noda,
    “Influence of structural fluctuations on Q factor of nanocavities at the surface of three-dimensional photonic crystals”,
    J. Opt. Soc. Am. B 30, 1660-1664 (2013)
  66. N. Gregersen, P. Kaer, and J. Mørk,
    “Modeling and Design of High-Efficiency Single-Photon Sources”,
    IEEE J. Sel. Top. Quantum Electron. 19, 9000516-9000516 (2013)
  67. P. Hamel, P. Grinberg, C. Sauvan, P. Lalanne, A. Baron, A. Yacomotti, I. Sagnes, F. Raineri, K. Bencheikh, and J. Levenson,
    “Coupling light into a slow-light photonic-crystal waveguide from a free-space normally-incident beam”,
    Opt. Express 21, 15144-15154 (2013)
  68. Y.-M. He, Y. He, Y.-J. Wei, D. Wu, M. Atature, C. Schneider, S. Hofling, M. Kamp, C.-Y. Lu, and J.-W. Pan,
    “On-demand semiconductor single-photon source with near-unity indistinguishability”,
    Nat. Nano. 8, 213-217 (2013)
  69. S. F. Helfert, and M. Daubenschüz,
    “Full vectorial band structure computation of photonic crystals with hexagonal lattice and a staircase approximation of the slanted unit cells”,
    Opt. Quantum. Electron. 45, 317-327 (2013)
  70. M. Heuck, P. T. Kristensen, Y. Elesin, and J. Mørk,
    “Improved switching using Fano resonances in photonic crystal structures”,
    Opt. Lett. 38, 2466-2468 (2013)
  71. K. Ishizaki, M. Koumura, K. Suzuki, K. Gondaira, and S. Noda,
    “Realization of three-dimensional guiding of photons in photonic crystals”,
    Nat. Photonics 7, 133-137 (2013)
  72. D. Jalas, A. Petrov, M. Eich, W. Freude, S. Fan, Z. Yu, R. Baets, M. Popovic, A. Melloni, J. D. Joannopoulos, M. Vanwolleghem, C. R. Doerr, and H. Renner,
    “What is [mdash] and what is not [mdash] an optical isolator”,
    Nat. Photon. 7, 579-582 (2013)
  73. C. Jarlov, K. A. Atlasov, L. Ferrier, M. Calic, P. Gallo, A. Rudra, B. Dwir, and E. Kapon,
    “1D and 2D arrays of coupled photonic crystal cavities with a site-controlled quantum wire light source”,
    Opt. Express 21, 31082-31091 (2013)
  74. K.-Y. Jeong, Y.-S. No, Y. Hwang, K. S. Kim, M.-K. Seo, H.-G. Park, and Y.-H. Lee,
    “Electrically driven nanobeam laser”,
    Nat. Commun. 4, 2822 (2013)
  75. S. Kadkhodazadeh, J. B. Wagner, H. Kneipp, and K. Kneipp,
    “Coexistence of classical and quantum plasmonics in large plasmonic structures with subnanometer gaps”,
    Appl. Phys. Lett. 103, 083103 (2013)
  76. S.-H. Kim, J. Huang, and A. Scherer,
    “Higher-order defect-mode laser in an optically thick photonic crystal slab”,
    Opt. Lett. 38, 94-96 (2013)
  77. H. Kim, R. Bose, T. C. Shen, G. S. Solomon, and E. Waks,
    “A quantum logic gate between a solid-state quantum bit and a photon”,
    Nat. Photonics 7, 373-377 (2013)
  78. P. T. Kristensen, M. Heuck, and J. Mørk,
    “Optimal switching using coherent control”,
    Appl. Phys. Lett. 102, 041107 (2013)
  79. V. Liu, and S. Fan,
    “Compact bends for multi-mode photonic crystal waveguides with high transmission and suppressed modal crosstalk”,
    Opt. Express 21, 8069-8075 (2013)
  80. J. Ma, L. J. Martínez, S. Fan, and M. L. Povinelli,
    “Tight-binding calculation of radiation loss in photonic crystal CROW”,
    Opt. Express 21, 2463-2473 (2013)
  81. B. Maes, J. Petráček, S. Burger, P. Kwiecien, J. Luksch, and I. Richter,
    “Simulations of high-Q optical nanocavities with a gradual 1D bandgap”,
    Opt. Express 21, 6794-6806 (2013)
  82. N. Mann, S. Combrié, P. Colman, M. Patterson, A. D. Rossi, and S. Hughes,
    “Reducing disorder-induced losses for slow light photonic crystal waveguides through Bloch mode engineering”,
    Opt. Lett. 38, 4244-4247 (2013)
  83. M. Minkov, U. P. Dharanipathy, R. Houdré, and V. Savona,
    “Statistics of the disorder-induced losses of high-Q photonic crystal cavities”,
    Opt. Express 21, 28233-28245 (2013)
  84. J. Munárriz, A. V. Malyshev, V. A. Malyshev, and J. Knoester,
    “Optical Nanoantennas with Tunable Radiation Patterns”,
    Nano Lett. 13, 444-450 (2013)
  85. M. Munsch, N. S. Malik, E. Dupuy, A. Delga, J. Bleuse, J.-M. Gérard, J. Claudon, N. Gregersen, and J. Mørk,
    “Dielectric GaAs Antenna Ensuring an Efficient Broadband Coupling between an InAs Quantum Dot and a Gaussian Optical Beam”,
    Phys. Rev. Lett. 110, 177402 (2013)
  86. C. Sauvan, J. P. Hugonin, I. S. Maksymov, and P. Lalanne,
    “Theory of the Spontaneous Optical Emission of Nanosize Photonic and Plasmon Resonators”,
    Phys. Rev. Lett. 110, 237401 (2013)
  87. I. Semenikhin, and M. Zanuccoli,
    “Computationally efficient finite-difference modal method for the solution of Maxwell’s equations”,
    J. Opt. Soc. Am. A 30, 2531-2538 (2013)
  88. G. K. Svendsen, M. W. Haakestad, and J. Skaar,
    “Reciprocity and the scattering matrix of waveguide modes”,
    Phys. Rev. A 87, 013838 (2013)
  89. K. Takeda, T. Sato, A. Shinya, K. Nozaki, W. Kobayashi, H. Taniyama, M. Notomi, K. Hasebe, T. Kakitsuka, and S. Matsuo,
    “Few-fJ/bit data transmissions using directly modulated lambda-scale embedded active region photonic-crystal lasers”,
    Nat. Photonics 7, 569-575 (2013)
  90. H. Takesue, N. Matsuda, E. Kuramochi, W. J. Munro, and M. Notomi,
    “An on-chip coupled resonator optical waveguide single-photon buffer”,
    Nat. Commun. 4, – (2013)
  91. M. Takiguchi, H. Sumikura, M. Danang Birowosuto, E. Kuramochi, T. Sato, K. Takeda, S. Matsuo, and M. Notomi,
    “Enhanced and suppressed spontaneous emission from a buried heterostructure photonic crystal cavity”,
    Appl. Phys. Lett. 103, 091113 (2013)
  92. U. Simona, K. Branko, C. Jianing, H. Rainer, and V. R. A. L.,
    “Far-field disentanglement of modes in hybrid plasmonic-photonic crystals by fluorescence nano-reporters”,
    Nanophotonics 2, 173-185 (2013)
  93. J. P. Vasco, H. Vinck-Posada, P. T. Valentim, and P. S. S. G. araes,
    “Modeling of Fano resonances in the reflectivity of photonic crystal cavities with finite spot size excitation”,
    Opt. Express 21, 31336-31346 (2013)
  94. F. von Cube, S. Irsen, R. Diehl, J. Niegemann, K. Busch, and S. Linden,
    “From Isolated Metaatoms to Photonic Metamaterials: Evolution of the Plasmonic Near-Field”,
    Nano Letters 13, 703-708 (2013)
  95. Y. Yu, E. Palushani, M. Heuck, N. Kuznetsova, P. T. Kristensen, S. Ek, D. Vukovic, C. Peucheret, L. K. Oxenløwe, S. Combrié, A. de Rossi, K. Yvind, and J. Mørk,
    “Switching characteristics of an InP photonic crystal nanocavity: Experiment and theory”,
    Opt. Express 21, 31047-31061 (2013)
  96. 2012

  97. R. A. de la Osa, J. M. Sanz, J. M. Saiz, F. González, and F. Moreno,
    “Quantum optical response of metallic nanoparticles and dimers”,
    Opt. Lett. 37, 5015-5017 (2012)
  98. T. Ba Hoang, J. Beetz, L. Midolo, M. Skacel, M. Lermer, M. Kamp, S. Höfling, L. Balet, N. Chauvin, and A. Fiore,
    “Enhanced spontaneous emission from quantum dots in short photonic crystal waveguides”,
    Appl. Phys. Lett. 100, – (2012)
  99. J. Ctyroky,
    “3-D Bidirectional Propagation Algorithm Based on Fourier Series”,
    Lightwave Technology, Journal of 30, 3699-3708 (2012)
  100. Q. Dai, W. C. Chew, Y. H. Lo, Y. Liu, and L. J. Jiang,
    “Generalized Modal Expansion of Electromagnetic Field in 2-D Bounded and Unbounded Media”,
    IEEE Antennas Wirel. Propag. Lett. 11, 1052-1055 (2012)
  101. D. Dai, J. Bauters, and J. E. Bowers,
    “Passive technologies for future large-scale photonic integrated circuits on silicon: polarization handling, light non-reciprocity and loss reduction”,
    Light Sci. Appl. 1, e1 (2012)
  102. J. R. de Lasson, T. Christensen, J. Mørk, and N. Gregersen,
    “Modeling of cavities using the analytic modal method and an open geometry formalism”,
    J. Opt. Soc. Am. A 29, 1237-1246 (2012)
  103. S. Derom, R. Vincent, A. Bouhelier, and G. C. des Francs,
    “Resonance quality, radiative/ohmic losses and modal volume of Mie plasmons”,
    Europhys. Lett. 98, 47008 (2012)
  104. K. B. Dossou, L. C. Botten, A. A. Asatryan, B. C. P. Sturmberg, M. A. Byrne, C. G. Poulton, R. C. McPhedran, and C. M. de Sterke,
    “Modal formulation for diffraction by absorbing photonic crystal slabs”,
    J. Opt. Soc. Am. A 29, 817-831 (2012)
  105. H. Duan, A. I. Fernández-Domínguez, M. Bosman, S. A. Maier, and J. K. W. Yang,
    “Nanoplasmonics: Classical down to the Nanometer Scale”,
    Nano Letters 12, 1683-1689 (2012)
  106. M. Frimmer, and A. F. Koenderink,
    “Superemitters in hybrid photonic systems: A simple lumping rule for the local density of optical states and its breakdown at the unitary limit”,
    Phys. Rev. B 86, 235428 (2012)
  107. J. Grgić, J. R. Ott, F. Wang, O. Sigmund, A.-P. Jauho, J. Mørk, and N. A. Mortensen,
    “Fundamental Limitations to Gain Enhancement in Periodic Media and Waveguides”,
    Phys. Rev. Lett. 108, 183903 (2012)
  108. S.-H. Kim, A. Homyk, S. Walavalkar, and A. Scherer,
    “High-$Q$ impurity photon states bounded by a photonic band pseudogap in an optically thick photonic crystal slab”,
    Phys. Rev. B 86, 245114 (2012)
  109. P. T. Kristensen, C. V. Vlack, and S. Hughes,
    “Generalized effective mode volume for leaky optical cavities”,
    Opt. Lett. 37, 1649-1651 (2012)
  110. A. Laucht, S. Pütz, T. Günthner, N. Hauke, R. Saive, S. Frédérick, M. Bichler, M.-C. Amann, A. W. Holleitner, M. Kaniber, and J. J. Finley,
    “A Waveguide-Coupled On-Chip Single-Photon Source”,
    Phys. Rev. X 2, 011014 (2012)
  111. A. Laucht, T. Günthner, S. Pütz, R. Saive, S. Frédérick, N. Hauke, M. Bichler, M.-C. Amann, A. W. Holleitner, M. Kaniber, and J. J. Finley,
    “Broadband Purcell enhanced emission dynamics of quantum dots in linear photonic crystal waveguides”,
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