M. Jose, . Moran-mirabal, G. Harold, and . Craighead, Zero-mode waveguides: subwavelength nanostructures for single molecule studies at high concentrations, Methods, vol.46, issue.1, pp.11-18, 2008.

K. Samiee, . Foquet, E. Guo, H. Cox, and . Craighead, ??-Repressor Oligomerization Kinetics at High Concentrations Using Fluorescence Correlation Spectroscopy in Zero-Mode Waveguides, Biophysical Journal, vol.88, issue.3, pp.2145-53, 2005.
DOI : 10.1529/biophysj.104.052795

C. Zander, R. Enderlein, and . Keller, Single Molecule Detection in Solution-Methods and Applications, 2002.

N. Thompson, T. Burghardt, and D. Axelrod, Measuring surface dynamics of biomolecules by total internal reflection fluorescence with photobleaching recovery or correlation spectroscopy, Biophysical Journal, vol.33, issue.3, pp.435-54, 1981.
DOI : 10.1016/S0006-3495(81)84905-3

K. Hassler, M. Leutenegger, P. Rigler, R. Rao, R. Rigler et al., Total internal reflection fluorescence correlation spectroscopy (TIR-FCS) with low background and high count-rate per molecule, Optics Express, vol.13, issue.19, pp.7415-7438, 2005.
DOI : 10.1364/OPEX.13.007415

T. Starr and N. Thompson, Total Internal Reflection with Fluorescence Correlation Spectroscopy: Combined Surface Reaction and Solution Diffusion, Biophysical Journal, vol.80, issue.3, pp.1575-84, 2001.
DOI : 10.1016/S0006-3495(01)76130-9

URL : http://doi.org/10.1016/s0006-3495(01)76130-9

H. Blom, C. Kastrup, and . Eggeling, Fluorescence Fluctuation Spectroscopy in Reduced Detection Volumes, Current Pharmaceutical Biotechnology, vol.7, issue.1, pp.51-66, 2006.
DOI : 10.2174/138920106775789629

F. Maria and . Garcia-parajo, Optical antennas focus in on biology, Nature Photonics, vol.2, issue.4, pp.201-203, 2008.

J. Wenger and H. Rigneault, Photonic Methods to Enhance Fluorescence Correlation Spectroscopy and Single Molecule Fluorescence Detection, International Journal of Molecular Sciences, vol.11, issue.1, pp.206-227, 2010.
DOI : 10.3390/ijms11010206

URL : https://hal.archives-ouvertes.fr/hal-00447146

P. Holzmeister, P. Guillermo, D. Acuna, P. Grohmann, and . Tinnefeld, Breaking the concentration limit of optical single-molecule detection. Chemical Society reviews, pp.1014-1042, 2014.

N. P. De-leon, B. J. Shields, C. L. Yu, D. E. Englund, A. V. Akimov et al., Tailoring Light-Matter Interaction with a, Nanoscale Plasmon Resonator. Physical Review Letters, vol.108, issue.22, p.226803, 2012.

A. Curto, G. Taminiau, and . Volpe, Multipolar radiation of quantum emitters with nanowire optical antennas, Nature Communications, vol.7, p.1750, 2013.
DOI : 10.1038/ncomms2769

. Jon-a-schuller, S. Edward, W. Barnard, Y. Cai, . Chul-jun et al., Plasmonics for extreme light concentration and manipulation, Nature Materials, vol.91, issue.3, pp.193-204, 2010.
DOI : 10.1038/nmat2630

D. Punj, S. Ghenuche, . Moparthi, . De-torres, . Grigoriev et al., Plasmonic antennas and zero-mode waveguides to enhance single molecule fluorescence detection and fluorescence correlation spectroscopy toward physiological concentrations, Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology, vol.20, issue.3, pp.268-282, 2014.
DOI : 10.1002/wnan.1261

URL : https://hal.archives-ouvertes.fr/hal-01009138

P. Lenne, E. Etienne, and H. Rigneault, Subwavelength patterns and high detection efficiency in fluorescence correlation spectroscopy using photonic structures, Applied Physics Letters, vol.80, issue.22, p.4106, 2002.
DOI : 10.1063/1.1483116

URL : https://hal.archives-ouvertes.fr/hal-00078511

H. Rigneault and P. Lenne, Fluorescence correlation spectroscopy on a mirror, Journal of the Optical Society of America B, vol.20, issue.10, pp.2203-2214, 2003.
DOI : 10.1364/JOSAB.20.002203

URL : https://hal.archives-ouvertes.fr/hal-00072362

W. Stefan and . Hell, Toward fluorescence nanoscopy, Nature biotechnology, vol.21, issue.11, pp.1347-55, 2003.

L. Kastrup, H. Blom, C. Eggeling, and S. Hell, Fluorescence Fluctuation Spectroscopy in Subdiffraction Focal Volumes, Physical Review Letters, vol.94, issue.17, pp.1-4, 2005.
DOI : 10.1103/PhysRevLett.94.178104

C. Eggeling, C. Ringemann, R. Medda, G. Schwarzmann, K. Sandhoff et al., Direct observation of the nanoscale dynamics of membrane lipids in a living cell, Nature, vol.3, issue.7233, pp.4571159-62, 2009.
DOI : 10.1038/nature07596

A. Ianoul, D. Donna, Y. Grant, M. Rouleau, L. J. Bani-yaghoub et al., Imaging nanometer domains of ??-adrenergic receptor complexes on the surface of cardiac myocytes, Nature Chemical Biology, vol.262, issue.4, pp.196-202, 2005.
DOI : 10.1073/pnas.101126198

I. Bärbel, . Bakker, A. Frank-de-lange, . Cambi, P. Jeroen et al., Nanoscale organization of the pathogen receptor DC-SIGN mapped by single-molecule high-resolution fluorescence microscopy, Chemphyschem : a European journal of chemical physics and physical chemistry, vol.8, issue.10, pp.1473-80, 2007.

D. Vobornik, D. S. Banks, Z. Lu, C. Fradin, R. Taylor et al., Fluorescence correlation spectroscopy with sub-diffraction-limited resolution using near-field optical probes, Applied Physics Letters, vol.93, issue.16, p.93, 2008.
DOI : 10.1063/1.2998602

M. Herrmann, N. Neuberth, J. Wissler, and J. Pérez, Near-Field Optical Study of Protein Transport Kinetics at a Single Nuclear Pore, Dietmar Gradl, and Andreas Naber, pp.3330-3336, 2009.
DOI : 10.1021/nl901598z

C. Manzo, T. S. Van-zanten, and M. F. Garcia-parajo, Nanoscale Fluorescence Correlation Spectroscopy on Intact Living Cell Membranes with NSOM Probes, Biophysical Journal, vol.100, issue.2, pp.8-10, 2011.
DOI : 10.1016/j.bpj.2010.12.3690

. Mathieu-mivelle, S. Thomas, L. Van-zanten, . Neumann, F. Niek et al., Ultrabright Bowtie Nanoaperture Antenna Probes Studied by Single Molecule Fluorescence, Nano Letters, vol.12, issue.11, pp.5972-5980, 2012.
DOI : 10.1021/nl303440w

P. Anger, P. Bharadwaj, and L. Novotny, Enhancement and Quenching of Single-Molecule Fluorescence, Physical Review Letters, vol.96, issue.11, pp.3-6, 2006.
DOI : 10.1103/PhysRevLett.96.113002

S. Kühn, U. Hå-kanson, L. Rogobete, and V. Sandoghdar, Enhancement of Single-Molecule Fluorescence Using a Gold Nanoparticle as an Optical Nanoantenna, Physical Review Letters, vol.97, issue.1, pp.1-4, 2006.
DOI : 10.1103/PhysRevLett.97.017402

T. H. Taminiau, F. D. Stefani, F. B. Segerink, and N. F. Van-hulst, Optical antennas direct single-molecule emission, Nature Photonics, vol.69, issue.4, pp.234-237, 2008.
DOI : 10.1038/nphoton.2008.32

URL : http://doc.utwente.nl/72434/1/optical.pdf

S. Thomas, M. J. Van-zanten, M. F. Lopez-bosque, and . Garcia-parajo, Imaging individual proteins and nanodomains on intact cell membranes with a probe-based optical antenna, Small Germany), vol.6, issue.2, pp.270-275, 2010.

M. Levene, S. Korlach, . Turner, H. Foquet, W. Craighead et al., Zero-Mode Waveguides for Single-Molecule Analysis at High Concentrations, Science, vol.299, issue.5607, pp.299682-299688, 2003.
DOI : 10.1126/science.1079700

H. Rigneault, J. Capoulade, J. Dintinger, J. Wenger, and N. Bonod, Evgeni Popov, Thomas Ebbesen, and Pierre-François Lenne. Enhancement of Single- Molecule Fluorescence Detection in Subwavelength Apertures, Physical Review Letters, issue.11, p.95117401, 2005.

M. Leutenegger, M. Gösch, A. Perentes, P. Hoffmann, J. Olivier et al., Confining the sampling volume for Fluorescence Correlation Spectroscopy using a sub-wavelength sized aperture, Optics Express, vol.14, issue.2, pp.956-69, 2006.
DOI : 10.1364/OPEX.14.000956

D. Gérard, J. Wenger, N. Bonod, E. Popov, H. Rigneault et al., Nanoaperture-enhanced fluorescence: Towards higher detection rates with plasmonic metals, Physical Review B, vol.77, issue.4, p.45413, 2008.
DOI : 10.1103/PhysRevB.77.045413

H. Aouani, S. Itzhakov, D. Gachet, E. Devaux, W. Thomas et al., Colloidal Quantum Dots as Probes of Excitation Field Enhancement in Photonic Antennas, ACS Nano, vol.4, issue.8, pp.4571-4579, 2010.
DOI : 10.1021/nn1009209

URL : https://hal.archives-ouvertes.fr/hal-00512389

F. Mahdavi, Y. Liu, and S. Blair, Modeling Fluorescence Enhancement from Metallic Nanocavities, Plasmonics, vol.14, issue.3, pp.129-141, 2007.
DOI : 10.1007/s11468-007-9041-z

F. Mahdavi and S. Blair, Nanoaperture Fluorescence Enhancement in the Ultraviolet, Plasmonics, vol.99, issue.2, pp.169-174, 2010.
DOI : 10.1007/s11468-010-9126-y

J. Wenger, D. Gérard, H. Aouani, and H. Rigneault, Nanoaperture-Enhanced Signal-to-Noise Ratio in Fluorescence Correlation Spectroscopy, Analytical Chemistry, vol.81, issue.2, pp.834-843, 2009.
DOI : 10.1021/ac8024015

URL : https://hal.archives-ouvertes.fr/hal-00353368

T. Miyake, T. Tanii, H. Sonobe, R. Akahori, N. Shimamoto et al., Real-Time Imaging of Single-Molecule Fluorescence with a Zero-Mode Waveguide for the Analysis of Protein???Protein Interaction, Analytical Chemistry, vol.80, issue.15, pp.6018-6040, 2008.
DOI : 10.1021/ac800726g

T. Sameshima, R. Iizuka, T. Ueno, J. Wada, M. Aoki et al., Single-molecule Study on the Decay Process of the Football-shaped GroEL-GroES Complex Using Zero-mode Waveguides, Journal of Biological Chemistry, vol.285, issue.30, pp.28523159-64, 2010.
DOI : 10.1074/jbc.M110.122101

D. Liao, P. Galajda, R. Riehn, R. Ilic, J. L. Puchalla et al., Single molecule correlation spectroscopy in continuous flow mixers with zero-mode waveguides, Optics Express, vol.16, issue.14, pp.10077-90, 2008.
DOI : 10.1364/OE.16.010077

J. Wenger, D. Gérard, P. Lenne, H. Rigneault, J. Dintinger et al., Annie Boned, Fabien Conchonaud, and Didier Marguet. Dual-color fluorescence cross-correlation spectroscopy in a single nanoaperture : towards rapid multicomponent screening at high concentrations, Optics express, issue.25, pp.1412206-1412222, 2006.

T. Sandén, R. Wyss, C. Santschi, G. Hassaïne, C. Deluz et al., A Zeptoliter Volume Meter for Analysis of Single Protein Molecules, Nano Letters, vol.12, issue.1, pp.370-375, 2012.
DOI : 10.1021/nl2036468

J. Eid, A. Fehr, J. Gray, K. Luong, J. Lyle et al., Real-Time DNA Sequencing from Single Polymerase Molecules, Science, vol.323, issue.5910, pp.133-138, 2009.
DOI : 10.1126/science.1162986

S. Uemura, C. E. Aitken, J. Korlach, . Benjamin-a-flusberg, W. Stephen et al., Real-time tRNA transit on single translating ribosomes at codon resolution, Nature, vol.94, issue.7291, pp.4641012-4641019, 2010.
DOI : 10.1038/nature08925

B. Mcnally, A. Singer, and Z. Yu, Optical Recognition of Converted DNA Nucleotides for Single-Molecule DNA Sequencing Using Nanopore Arrays, Nano Letters, vol.10, issue.6, pp.2237-2281, 2010.
DOI : 10.1021/nl1012147

M. Jose, A. J. Moran-mirabal, . Torres, T. Kevan, B. A. Samiee et al., Cell investigation of nanostructures: zero-mode waveguides for plasma membrane studies with single molecule resolution, Nanotechnology, issue.19, p.18, 2007.

B. Joshua, M. Edel, B. Wu, . Baird, G. Harold et al., High spatial resolution observation of single-molecule dynamics in living cell membranes, Biophysical journal, vol.88, issue.6, pp.43-48, 2005.

K. Samiee, J. Moran-mirabal, Y. Cheung, and H. Craighead, Zero Mode Waveguides for Single-Molecule Spectroscopy on Lipid Membranes, Biophysical Journal, vol.90, issue.9, pp.3288-99, 2006.
DOI : 10.1529/biophysj.105.072819

J. Wenger, H. Rigneault, J. Dintinger, D. Marguet, and P. Lenne, Single-Fluorophore Diffusion in a Lipid Membrane over a Subwavelength Aperture, Journal of Biological Physics, vol.175, issue.1, pp.1-4, 2006.
DOI : 10.1007/s10867-006-2909-x

URL : https://hal.archives-ouvertes.fr/hal-00079116

J. Wenger, F. Conchonaud, J. Dintinger, L. Wawrezinieck, . Thomas et al., Diffusion Analysis within Single Nanometric Apertures Reveals the Ultrafine Cell Membrane Organization, Biophysical Journal, vol.92, issue.3, pp.913-922, 2007.
DOI : 10.1529/biophysj.106.096586

URL : https://hal.archives-ouvertes.fr/hal-00124704

I. Christopher, K. Richards, R. Luong, . Srinivasan, W. Stephen et al., Live-cell imaging of single receptor composition using zero-mode waveguide nanostructures, Nano letters, vol.12, issue.7, pp.3690-3694, 2012.

V. Christopher, B. A. Kelly, . Baird, G. Harold, and . Craighead, An array of planar apertures for near-field fluorescence correlation spectroscopy, Biophysical journal, vol.100, issue.7, pp.34-40, 2011.

H. Aouani, O. Mahboub, E. Devaux, H. Rigneault, W. Thomas et al., Plasmonic Antennas for Directional Sorting of Fluorescence Emission, Nano Letters, vol.11, issue.6, pp.2400-2406, 2011.
DOI : 10.1021/nl200772d

URL : https://hal.archives-ouvertes.fr/hal-00600188

H. Aouani, O. Mahboub, N. Bonod, E. Devaux, E. Popov et al., Bright Unidirectional Fluorescence Emission of Molecules in a Nanoaperture with Plasmonic Corrugations, Nano Letters, vol.11, issue.2, pp.637-681, 2011.
DOI : 10.1021/nl103738d

URL : https://hal.archives-ouvertes.fr/hal-00558302

H. Aouani, O. Mahboub, E. Devaux, H. Rigneault, W. Thomas et al., Large molecular fluorescence enhancement by a nanoaperture with plasmonic corrugations, Optics Express, vol.19, issue.14, pp.13056-62, 2011.
DOI : 10.1364/OE.19.013056

URL : https://hal.archives-ouvertes.fr/hal-00602631

Y. Chul-jun, K. C. Huang, L. Mark, and . Brongersma, Plasmonic beaming and active control over fluorescent emission, Nature communications, vol.2, p.283, 2011.

L. Langguth, D. Punj, J. Wenger, and A. Koenderink, Plasmonic Band Structure Controls Single-Molecule Fluorescence, ACS Nano, vol.7, issue.10, pp.8840-8848, 2013.
DOI : 10.1021/nn4033008

URL : https://hal.archives-ouvertes.fr/hal-00881705

A. Kinkhabwala, Z. Yu, S. Fan, Y. Avlasevich, K. Müllen et al., Large single-molecule fluorescence enhancements produced by a bowtie nanoantenna, Nature Photonics, vol.4, issue.11, pp.654-657, 2009.
DOI : 10.1038/nphoton.2009.187

T. Lohmüller, . Iversen, C. Schmidt, H. Rhodes, W. Tu et al., Single Molecule Tracking on Supported Membranes with Arrays of Optical Nanoantennas, Nano Letters, vol.12, issue.3, pp.1717-1738, 2012.
DOI : 10.1021/nl300294b

D. Punj, M. Mivelle, S. Babu-moparthi, S. Thomas, H. Van-zanten et al., A plasmonic ???antenna-in-box??? platform for enhanced single-molecule analysis at micromolar concentrations, Nature Nanotechnology, vol.95, issue.7, pp.512-518, 2013.
DOI : 10.1038/nnano.2013.98

URL : https://hal.archives-ouvertes.fr/hal-00840847

C. Nathan, P. Lindquist, . Nagpal, M. Kevin, . Mcpeak et al., Engineering metallic nanostructures for plasmonics and nanophotonics. Reports on progress in physics, Physical Society (Great Britain), vol.75, issue.3, p.36501, 2012.

P. Biagioni, J. Huang, and B. Hecht, Nanoantennas for visible and infrared radiation. Reports on progress in physics, p.24402, 2012.

L. Guo, Nanoimprint Lithography: Methods and Material Requirements, Advanced Materials, vol.17, issue.8, pp.495-513, 2007.
DOI : 10.1002/adma.200600882

URL : http://deepblue.lib.umich.edu/bitstream/2027.42/55959/1/495_ftp.pdf

A. A. Kinkhabwala, Z. Yu, S. Fan, and W. E. Moerner, Fluorescence correlation spectroscopy at high concentrations using gold bowtie nanoantennas, Chemical Physics, vol.406, pp.3-8, 2012.
DOI : 10.1016/j.chemphys.2012.04.011

G. Alberto, G. Curto, . Volpe, H. Tim, . Taminiau et al., Unidirectional emission of a quantum dot coupled to a nanoantenna, Science, issue.5994, pp.329930-329933, 2010.

W. Paul and . Rothemund, Folding DNA to create nanoscale shapes and patterns, Nature, vol.440, issue.7082, pp.297-302, 2006.

M. Rycenga, C. M. Cobley, J. Zeng, W. Li, C. H. Moran et al., Controlling the Synthesis and Assembly of Silver Nanostructures for Plasmonic Applications, Chemical Reviews, vol.111, issue.6, pp.3669-712, 2011.
DOI : 10.1021/cr100275d

R. Matthew, . Jones, D. Kyle, . Osberg, J. Robert et al., Templated techniques for the synthesis and assembly of plasmonic nanostructures, Chemical reviews, vol.111, issue.6, pp.3736-827, 2011.

C. Laura, . Estrada, F. Pedro, . Aramendía, E. Oscar et al., 10000 Times Volume Reduction for Fluorescence Correlation Spectroscopy Using Nano-Antennas, Optics express, vol.16, issue.25, pp.20597-602, 2008.

Q. Wang, G. Lu, L. Hou, T. Zhang, C. Luo et al., Qihuang Gong. Fluorescence correlation spectroscopy near individual gold nanoparticle, Chemical Physics Letters, vol.503, pp.4-6256, 2011.

G. Lu, J. Liu, T. Zhang, W. Li, L. Hou et al., Plasmonic near-field in the vicinity of a single gold nanoparticle investigated with fluorescence correlation spectroscopy, Nanoscale, vol.90, issue.11, pp.3359-64, 2012.
DOI : 10.1039/c2nr12137a

H. Yuan, S. Khatua, P. Zijlstra, M. Yorulmaz, and M. Orrit, Thousand-fold Enhancement of Single-Molecule Fluorescence Near a Single Gold Nanorod, Angewandte Chemie, vol.66, issue.4, pp.1255-1259, 2013.
DOI : 10.1002/ange.201208125

D. Punj, J. De-torres, H. Rigneault, and J. Wenger, Gold nanoparticles for enhanced single molecule fluorescence analysis at micromolar concentration, Optics Express, vol.21, issue.22, p.27338, 2013.
DOI : 10.1364/OE.21.027338

URL : https://hal.archives-ouvertes.fr/hal-00881706

K. Sharmistha-dutta-choudhury, J. R. Ray, and . Lakowicz, Silver Nanostructures for Fluorescence Correlation Spectroscopy: Reduced Volumes and Increased Signal Intensities, The Journal of Physical Chemistry Letters, vol.3, issue.19, pp.2915-2919, 2012.
DOI : 10.1021/jz301229m

P. Mickaël, B. Busson, B. Rolly, N. Stout, S. Bonod et al., Accelerated single photon emission from dye molecule-driven nanoantennas assembled on DNA, Nature communications, vol.3, p.962, 2012.

P. Mickaël, B. Busson, B. Rolly, N. Stout, J. Bonod et al., Photonic engineering of hybrid metal-organic chromophores, Angewandte Chemie, issue.44, pp.5111083-5111090, 2012.

P. Mickaël, B. Busson, B. Rolly, N. Stout, E. Bonod et al., Optical and topological characterization of gold nanoparticle Bibliography dimers linked by a single DNA double strand, Nano letters, vol.11, issue.11, pp.5060-5065, 2011.

P. Guillermo, M. Acuna, . Bucher, H. Ingo, C. Stein et al., Distance dependence of single-fluorophore quenching by gold nanoparticles studied on DNA origami, ACS nano, vol.6, issue.4, pp.3189-95, 2012.

G. P. Acuna, P. Holzmeister, F. M. Möller, and S. Beater, DNA-templated nanoantennas for single-molecule detection at elevated concentrations, Journal of Biomedical Optics, vol.18, issue.6, pp.65001-065001, 2013.
DOI : 10.1117/1.JBO.18.6.065001

G. Acuna, F. Möller, . Holzmeister, . Beater, P. Lalkens et al., Fluorescence Enhancement at Docking Sites of DNA-Directed Self-Assembled Nanoantennas, Science, vol.338, issue.6106, pp.338506-338516, 2012.
DOI : 10.1126/science.1228638

K. G. Lee, X. W. Chen, H. Eghlidi, P. Kukura, R. Lettow et al., A planar dielectric antenna for directional single-photon emission and near-unity collection efficiency, Nature Photonics, vol.18, issue.3, pp.166-169, 2011.
DOI : 10.1038/nphoton.2010.312

P. Winckler, R. Jaffiol, J. Plain, and P. Royer, Nonradiative Excitation Fluorescence: Probing Volumes Down to the Attoliter Range, The Journal of Physical Chemistry Letters, vol.1, issue.16, pp.2451-2454, 2010.
DOI : 10.1021/jz100917u

M. Foquet, J. Korlach, R. Warren, . Zipfel, W. Watt et al., Focal Volume Confinement by Submicrometer-Sized Fluidic Channels than 1 µ m were fabricated in fused silica for high, pp.1618-1626, 2004.

F. John, . Lesoine, . Venkataraman, C. Peter, . Maloney et al., Nanochannel-based single molecule recycling, Nano letters, vol.12, issue.6, pp.3273-3281, 2012.

G. Lu, H. Franck, J. Lei, M. Angiboust, and . Manfait, Confined detection volume of fluorescence correlation spectroscopy by bare fiber probes, European Biophysics Journal, vol.13, issue.5, pp.855-60, 2010.
DOI : 10.1007/s00249-009-0508-z

H. Aouani, P. Ferrand, and N. Sojic, Optical-fiber-microsphere for remote fluorescence correlation spectroscopy Abstract, pp.19085-19092, 2009.
DOI : 10.1364/oe.17.019085

P. Ghenuche, Hollow-core photonic crystal fiber probe for remote fluorescence sensing with single molecule sensitivity Abstract, pp.19085-19092, 2012.

J. Kerry and . Vahala, Optical microcavities Plasmonenhanced single photon emission from a nanoassembled metal-diamond hybrid structure at room temperature, Nature Nano letters, vol.9, issue.6950, pp.424839-461694, 2003.

C. Kittle, Introduction to solid state physics, 1996.

U. Kriebig and M. Vollmer, Optical Properties of metal clusters, 1995.
DOI : 10.1007/978-3-662-09109-8

A. Stefan and . Maier, Plasmonics:Fundamental and Applications, 2007.

L. Novotny and B. Hecht, Principles of Nano-Optics, 2006.

A. Mohammadi, V. Sandoghdar, and M. Agio, Gold, Copper, Silver and Aluminum Nanoantennas to Enhance Spontaneous Emission, Journal of Computational and Theoretical Nanoscience, vol.6, issue.9, pp.2024-2030, 2009.
DOI : 10.1166/jctn.2009.1259

URL : http://arxiv.org/abs/0807.4082

C. Bohren and D. Huffman, Absorption and Scattering of Light by Small Particles, 1983.
DOI : 10.1002/9783527618156

F. Capolino, Theory and Phenomena of Metamaterials, 2009.
DOI : 10.1201/9781420054262

J. P. Gordon and P. F. Liao, Radiation damping in surface-enhanced Raman scattering, Physical Review Letters, issue.14, pp.48957-960, 1982.

D. Pedro-de-vries, A. Van-coevorden, and . Lagendijk, Point scatterers for classical waves, Reviews of Modern Physics, vol.70, issue.2, pp.447-466, 1998.
DOI : 10.1103/RevModPhys.70.447

V. Grigoriev, N. Bonod, J. Wenger, and B. Stout, Optimizing Nanoparticle Designs for Ideal Absorption of Light, ACS Photonics, vol.2, issue.2, p.150205142313007, 2015.
DOI : 10.1021/ph500456w

URL : https://hal.archives-ouvertes.fr/hal-01230614

P. Alitalo, C. Simovski, S. Viitanen, and . Tretyakov, Near-field enhancement and subwavelength imaging in the optical region using a pair of two-dimensional arrays of metal nanospheres, Physical Review B, vol.74, issue.23, pp.1-6, 2006.
DOI : 10.1103/PhysRevB.74.235425

A. , F. Koenderink, and A. Polman, Complex response and polariton-like dispersion splitting in periodic metal nanoparticle chains, Physical Review B -Condensed Matter and Materials Physics, vol.74, pp.1-4, 2006.

P. Bharadwaj, B. Deutsch, and L. Novotny, Optical Antennas, Advances in Optics and Photonics, vol.1, issue.3, p.438, 2009.
DOI : 10.1364/AOP.1.000438

P. R. West, S. Ishii, G. V. Naik, N. K. Emani, V. M. Shalaev et al., Searching for better plasmonic materials, Laser & Photonics Reviews, vol.50, issue.6, pp.795-808, 2010.
DOI : 10.1002/lpor.200900055

M. Agio, Optical antennas as nanoscale resonators, Nanoscale, vol.5, issue.3, pp.692-706, 2012.
DOI : 10.1039/C1NR11116G

URL : http://arxiv.org/abs/1111.1302

E. M. Purcell, Spontaneous Emission Probabilities at Radio Frequencies, p.681, 1946.
DOI : 10.1007/978-1-4615-1963-8_40

M. Dridi, C. George, and . Schatz, Model for describing plasmon-enhanced lasers that combines rate equations with finite-difference time-domain, Journal of the Optical Society of America B, vol.30, issue.11, pp.2791-2797, 2013.
DOI : 10.1364/JOSAB.30.002791

V. Giannini, J. A. Sánchez-gil, O. L. Muskens, and J. Rivas, Electrodynamic calculations of spontaneous emission coupled to metal nanostructures of arbitrary shape: nanoantenna-enhanced fluorescence, Journal of the Optical Society of America B, vol.26, issue.8, p.1569, 2009.
DOI : 10.1364/JOSAB.26.001569

V. Giannini, I. Antonio, Y. Fernández-domínguez, T. Sonnefraud, R. Roschuk et al., Controlling Light Localization and Light-Matter Interactions with Nanoplasmonics, Small, vol.33, issue.77, pp.2498-507, 2010.
DOI : 10.1002/smll.201001044

P. Berman, Cavity Quantum Electrodynamics, American Journal of Physics, vol.64, issue.2, 1994.
DOI : 10.1119/1.18423

C. Sauvan, J. P. Hugonin, I. S. Maksymov, and P. Lalanne, Theory of the Spontaneous Optical Emission of Nanosize Photonic and Plasmon Resonators, Physical Review Letters, vol.110, issue.23, pp.1-5, 2013.
DOI : 10.1103/PhysRevLett.110.237401

URL : https://hal.archives-ouvertes.fr/hal-00850459

M. Agio and D. M. Cano, Nano-optics: The Purcell factor of nanoresonators, Nature Photonics, vol.9, issue.9, pp.674-675, 2013.
DOI : 10.1038/nphoton.2013.219

J. Sun, J. Carney, and . Schotland, Strong tip effects in near-field scanning optical tomography, Journal of Applied Physics, vol.102, issue.10, p.103103, 2007.
DOI : 10.1063/1.2812545

E. Cubukcu, E. A. Kort, K. B. Crozier, and F. Capasso, Plasmonic laser antenna, Applied Physics Letters, vol.89, issue.9, p.93120, 2006.
DOI : 10.1063/1.2339286

L. Tang, S. Sukru-ekin-kocabas, A. K. Latif, . Okyay, K. C. Dany-sebastien-ly-gagnon et al., Nanometre-scale germanium photodetector enhanced by a near-infrared dipole antenna, Nature Photonics, vol.152, issue.4, pp.226-229, 2008.
DOI : 10.1038/nphoton.2008.30

R. Filter, K. S?owik, J. Straubel, F. Lederer, and C. Rockstuhl, Nanoantennas for ultrabright single photon sources, Optics Letters, vol.39, issue.5, pp.1246-1255, 2014.
DOI : 10.1364/OL.39.001246

B. Lounis and M. Orrit, Single-photon sources, Reports on Progress in Physics, vol.68, issue.5, pp.1129-1179, 2005.
DOI : 10.1088/0034-4885/68/5/R04

W. Barnes, Fluorescence near interfaces: The role of photonic mode density, Journal of Modern Optics, vol.36, issue.4, pp.661-699, 1998.
DOI : 10.1080/09500349808230614

J. Lakowicz, Radiative decay engineering 5: metal-enhanced fluorescence and plasmon emission, Analytical Biochemistry, vol.337, issue.2, pp.171-194, 2005.
DOI : 10.1016/j.ab.2004.11.026

URL : http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2763912

E. Fort and S. Grésillon, Surface enhanced fluorescence, Journal of Physics D: Applied Physics, vol.41, issue.1, p.13001, 2008.
DOI : 10.1088/0022-3727/41/1/013001

J. Wenger, D. Gérard, J. Dintinger, O. Mahboub, N. Bonod et al., Emission and excitation contributions to enhanced single molecule fluorescence by gold nanometric apertures, Optics Express, vol.16, issue.5, pp.3008-3028, 2008.
DOI : 10.1364/OE.16.003008

URL : https://hal.archives-ouvertes.fr/hal-00258067

D. Magde, W. Elson, and . Webb, Thermodynamic Fluctuations in a Reacting System???Measurement by Fluorescence Correlation Spectroscopy, Physical Review Letters, vol.29, issue.11, pp.705-708, 1972.
DOI : 10.1103/PhysRevLett.29.705

P. Schwille and E. Haustein, Fluorescence Correlation Spectroscopy
DOI : 10.1007/3-540-29623-9_4840

S. Rigler and E. Elson, Fluorescence Correlation Spectroscopy, Theory and Applications, 2001.

J. R. Lakowicz, Principles of Fluorescence Spectroscopy, 2006.
DOI : 10.1007/978-0-387-46312-4

M. Wahl, Time-correlated photon counting tech note tcspc 1.2. PicoQuant GmbH, 2000.

J. Wenger, Fluorescence Enhancement Factors on Optical Antennas: Enlarging the Experimental Values without Changing the Antenna Design, International Journal of Optics, vol.25, issue.17, pp.1-7, 2012.
DOI : 10.1038/nphoton.2010.312

URL : https://hal.archives-ouvertes.fr/hal-00661068

L. Chen, H. Mcbranch, . Wang, . Helgeson, D. Wudl et al., Highly sensitive biological and chemical sensors based on reversible fluorescence quenching in a conjugated polymer, Proceedings of the National Academy of Sciences, vol.96, issue.22, pp.9612287-92, 1999.
DOI : 10.1073/pnas.96.22.12287

E. Palik, Handbook of Optical Constants of Solids, 1985.

J. Wenger, P. Lenne, E. Popov, H. Rigneault, J. Dintinger et al., Single molecule fluorescence in rectangular nano-apertures, Optics Express, vol.13, issue.18, pp.7035-7079, 2005.
DOI : 10.1364/OPEX.13.007035

A. P. Lutz, U. P. King, R. R. Wild, and . Ernst, Energy transfer in surface enhanced luminescence, The Journal of Chemical Physics, vol.79, issue.1, p.509, 1983.

P. Bharadwaj and L. Novotny, Plasmon-Enhanced Photoemission from a Single Y 3 N @ C 80 Fullerene ?, pp.7444-7447, 2010.

E. Dennis and . Koppel, Statistical accuracy in fluorescence correlation spectroscopy, Physical Review A, vol.10, issue.6, pp.1938-1945, 1974.

K. Bacia, P. Kim, and . Schwille, Fluorescence cross-correlation spectroscopy in living cells, Nature Methods, vol.72, issue.2, pp.83-89, 2006.
DOI : 10.1038/nmeth822

E. Popov, M. Neviere, J. Wenger, P. Lenne, H. Rigneault et al., Field enhancement in single subwavelength apertures, Journal of the Optical Society of America A, vol.23, issue.9, pp.2342-2348, 2006.
DOI : 10.1364/JOSAA.23.002342

URL : https://hal.archives-ouvertes.fr/hal-00103889

P. Bharadwaj and L. Novotny, Spectral dependence of single molecule fluorescence enhancement, Optics Express, vol.15, issue.21, pp.14266-14274, 2007.
DOI : 10.1364/OE.15.014266

H. Mertens, . Koenderink, and . Polman, Plasmon-enhanced luminescence near noble-metal nanospheres: Comparison of exact theory and an improved Gersten and Nitzan model, Physical Review B, vol.76, issue.11, p.115123, 2007.
DOI : 10.1103/PhysRevB.76.115123

P. Bharadwaj, P. Anger, and L. Novotny, Nanoplasmonic enhancement of single-molecule fluorescence, Nanotechnology, vol.18, issue.4, p.44017, 2007.
DOI : 10.1088/0957-4484/18/4/044017

J. Manson, D. Kumar, B. J. Meenan, and D. Dixon, Polyethylene glycol functionalized gold nanoparticles: the influence of capping density on stability in various media, Gold Bulletin, vol.6, issue.2, pp.99-105512, 2011.
DOI : 10.1007/s13404-011-0015-8

J. Punj, H. De-torres, J. Rigneault, and . Wenger, Gold nanoparticles for enhanced single molecule fluorescence analysis at micromolar concentration, Optics Express, vol.21, issue.22, pp.27338-438840, 2013.
DOI : 10.1364/OE.21.027338

URL : https://hal.archives-ouvertes.fr/hal-00881706

P. Punj, S. Ghenuche, . Moparthi, . De-torres, . Grigoriev et al., Plasmonic antennas and zero-mode waveguides to enhance single molecule fluorescence detection and fluorescence correlation spectroscopy toward physiological concentrations, Conference Proceedings Paper Hervé Rigneault, and Jérôme Wenger Proc. SPIE 9126, pp.268-282, 2014.
DOI : 10.1002/wnan.1261

URL : https://hal.archives-ouvertes.fr/hal-01009138