E. Purcell, Spontaneous emission probabilities at radio frequencies Phys, Rev, vol.69, p.681, 1946.
DOI : 10.1007/978-1-4615-1963-8_40

K. M. Birnbaum, A. Boca, R. Miller, A. D. Boozer, T. E. Northup et al., Photon blockade in an optical cavity with one trapped atom, Nature, vol.58, issue.7047, pp.87-90, 2005.
DOI : 10.1103/PhysRevLett.58.203

M. Koch, C. Sames, M. Balbach, H. Chibani, A. Kubanek et al., Three-Photon Correlations in a Strongly Driven Atom-Cavity System, Three-photon correlations in a strongly driven atom?cavity system Phys, p.23601, 2011.
DOI : 10.1103/PhysRevLett.106.243601

B. Dayan, A. S. Parkins, T. Aoki, E. P. Ostby, K. J. Vahala et al., A Photon Turnstile Dynamically Regulated by One Atom, Science, vol.1, issue.12, pp.1062-1067, 2008.
DOI : 10.1002/prop.200610325

A. Wallraff, D. I. Schuster, A. Blais, and . Frunzio, Strong coupling of a single photon to a superconducting qubit using circuit quantum electrodynamics, Nature, vol.431, issue.7005, p.162, 2004.
DOI : 10.1038/22275

E. Peter, P. Senellart, D. Martrou, A. Lema??trelema??tre, J. Hours et al., Exciton-Photon Strong-Coupling Regime for a Single Quantum Dot Embedded in a Microcavity, Physical Review Letters, vol.42, issue.6, p.67401, 2005.
DOI : 10.1063/1.1844033

K. Hennessy, A. Badolato, P. M. Petroff, and . Hu, Positioning photonic crystal cavities to single InAs quantum dots, Photonics and Nanostructures - Fundamentals and Applications, vol.2, issue.2, pp.65-72, 2004.
DOI : 10.1016/j.photonics.2004.07.001

A. Mohan, M. Felici, P. Gallo, B. Dwir, A. Rudra et al., Polarization-entangled photons produced with high-symmetry site-controlled quantum dots Nature Photon, pp.302-308, 2010.
DOI : 10.1038/nphoton.2010.2

A. Dousse, L. Lanco, J. Suffczy´nskisuffczy´nski, E. Semenova, A. Miard et al., Controlled Light-Matter Coupling for a Single Quantum Dot Embedded in a Pillar Microcavity Using Far-Field Optical Lithography, Physical Review Letters, vol.101, issue.26, p.267404, 2008.
DOI : 10.1063/1.2749862

G. Cui, A hemispherical, high-solid-angle optical micro-cavity for cavity-QED studies arXiv:quant- ph, 2006.
DOI : 10.1364/oe.14.002289

URL : http://arxiv.org/pdf/quant-ph/0601046

A. Muller, E. B. Flagg, M. Metcalfe, J. Lawall, and G. Solomon, Coupling an epitaxial quantum dot to a fiber-based external-mirror microcavity, Applied Physics Letters, vol.95, issue.17, p.173101, 2009.
DOI : 10.1103/PhysRevB.69.205324

URL : http://arxiv.org/abs/0910.4658

R. J. Barbour, P. A. Dalgarno, A. Curran, K. M. Nowak, H. J. Baker et al., A tunable microcavity, Journal of Applied Physics, vol.110, issue.5, p.53107, 2011.
DOI : 10.1103/PhysRevLett.93.217401

E. T. Jaynes and F. Cummings, Comparison of quantum and semiclassical radiation theories with application to the beam maser, Proceedings of the IEEE, vol.51, issue.1, pp.89-109, 1963.
DOI : 10.1109/PROC.1963.1664

L. C. Andreani, G. Panzarini, and J. Gérard, Strong-coupling regime for quantum boxes in pillar microcavities: Theory, Physical Review B, vol.29, issue.19, p.13276, 1999.
DOI : 10.1103/PhysRevB.47.3832

K. Srinivasan and O. Painter, Linear and nonlinear optical spectroscopy of a strongly coupled microdisk???quantum dot system, Nature, vol.97, issue.7171, pp.862-867, 2007.
DOI : 10.1038/nature06274

C. Schneider, A. Huggenberger, M. Gschrey, P. Gold, S. Rodt et al., Ga) as-GaAs site-controlled quantum dots with tailored morphology and high optical quality Physica Status Solidi, pp.2379-86, 2012.
DOI : 10.1002/pssa.201228373

K. D. Jöns, P. Atkinson, M. Müller, M. Heldmaier, S. M. Ulrich et al., Triggered Indistinguishable Single Photons with Narrow Line Widths from Site-Controlled Quantum Dots, Nano Letters, vol.13, issue.1, p.126, 2013.
DOI : 10.1021/nl303668z

S. M. Thon, M. T. Rakher, H. Kim, J. Gudat, W. Irvine et al., Strong coupling through optical positioning of a quantum dot in a photonic crystal cavity, Applied Physics Letters, vol.94, issue.11, p.111115, 2009.
DOI : 10.1103/PhysRevLett.101.267404

K. Hennessy, A. Badolato, A. Tamboli, P. M. Petroff, E. Hu et al., Tuning photonic crystal nanocavity modes by wet chemical digital etching, Applied Physics Letters, vol.87, issue.2, p.21108, 2005.
DOI : 10.1016/S1386-9477(02)00581-7

S. Mosor, J. Hendrickson, B. C. Richards, J. Sweet, G. Khitrova et al., Scanning a photonic crystal slab nanocavity by condensation of xenon, Applied Physics Letters, vol.87, issue.14, p.141105, 2005.
DOI : 10.1103/PhysRevB.66.041303

D. Hunger, T. Steinmetz, Y. Colombe, C. Deutsch, and T. Hänsch, A fiber Fabry???Perot cavity with high finesse, New Journal of Physics, vol.12, issue.6, p.65038, 2010.
DOI : 10.1088/1367-2630/12/6/065038

URL : http://arxiv.org/abs/1005.0067

G. Panzarini, L. C. Andreani, A. Armitage, D. Baxter, M. S. Skolnick et al., Exciton-light coupling in single and coupled semiconductor microcavities: Polariton dispersion and polarization splitting, Physical Review B, vol.80, issue.7, p.5082, 1999.
DOI : 10.1103/PhysRevLett.81.661

V. Savona, J. Benisty, . Gérard, J. Houdré, C. Rarity et al., Linear optical properties of semiconductor microcavities with embedded quantum wells, Lecture Notes in Physics, vol.531, pp.173-242, 1999.
DOI : 10.1007/BFb0104383

J. Garcia, Intermixing and shape changes during the formation of InAs self-assembled quantum dots Appl, Phys. Lett, vol.71, pp.2014-2020, 1997.

A. Laucht, F. Hofbauer, N. Hauke, A. J. Stobbe, S. Kaniber et al., Electrical control of spontaneous emission and strong coupling for a single quantum dot, New Journal of Physics, vol.11, issue.2, p.23034, 2009.
DOI : 10.1088/1367-2630/11/2/023034

M. T. Rakher, N. G. Stoltz, L. A. Coldren, P. M. Petroff, and D. Bouwmeester, Externally Mode-Matched Cavity Quantum Electrodynamics with Charge-Tunable Quantum Dots, Physical Review Letters, vol.102, issue.9, p.97403, 2009.
DOI : 10.1038/nature05586

URL : http://arxiv.org/pdf/0902.3019

S. Reitzenstein, Electrically Driven Quantum Dot Micropillar Light Sources, IEEE Journal of Selected Topics in Quantum Electronics, vol.17, issue.6, pp.1670-80, 2011.
DOI : 10.1109/JSTQE.2011.2107504

D. Pinotsi, P. Fallahi, J. Miguel-sanchez, and A. Imamoglu, Resonant Spectroscopy on Charge Tunable Quantum Dots in Photonic Crystal Structures, IEEE Journal of Quantum Electronics, vol.47, issue.11, pp.1371-1375, 2011.
DOI : 10.1109/JQE.2011.2164898

M. Atature, J. Dreiser, A. Badolato, A. Hogele, K. Karrai et al., Quantum-Dot Spin-State Preparation with Near-Unity Fidelity, Science, vol.312, issue.5773, pp.551-554, 2006.
DOI : 10.1126/science.1126074

M. Winger, Explanation of Photon Correlations in the Far-Off-Resonance Optical Emission from a Quantum-Dot???Cavity System, Physical Review Letters, vol.103, issue.20, p.207403, 2009.
DOI : 10.1063/1.2812576

M. Yamaguchi, T. Asano, and S. Noda, Third emission mechanism in solid-state nanocavity quantum electrodynamics, Reports on Progress in Physics, vol.75, issue.9, p.96401, 2012.
DOI : 10.1088/0034-4885/75/9/096401

D. Gammon, E. S. Snow, B. V. Shanabrook, D. Katzer, and D. Park, Fine Structure Splitting in the Optical Spectra of Single GaAs Quantum Dots, Physical Review Letters, vol.55, issue.16, pp.3005-3013, 1996.
DOI : 10.1016/0038-1098(85)90131-0

A. Auffèves-garnier, C. Simon, J. Gérard, and J. Poizat, Giant optical nonlinearity induced by a single two-level system interacting with a cavity in the Purcell regime, Physical Review A, vol.18, issue.5, p.53823, 2007.
DOI : 10.1049/el:20001056

D. Hunger, C. Deutsch, R. J. Barbour, and R. Warburton, Laser micro-fabrication of concave, low-roughness features in silica AIP Adv, p.12119, 2012.

S. T. Y?lmaz, P. Fallahi, and A. Imamo?-glu, Quantum-Dot-Spin Single-Photon Interface, Physical Review Letters, vol.105, issue.3, p.33601, 2010.
DOI : 10.1038/nature06472

W. B. Gao, P. Fallahi, E. Togan, J. Miguel-sanchez, and A. Imamoglu, Observation of entanglement between a quantum dot spin and a single photon, Nature, vol.449, issue.7424, pp.426-456, 2012.
DOI : 10.1038/nature06118

K. De-greve, Quantum-dot spin???photon entanglement via frequency downconversion to telecom wavelength, Nature, vol.96, issue.7424, pp.421-426, 2012.
DOI : 10.1063/1.3428960

S. Ritter, C. Nolleke, C. Hahn, A. Reiserer, A. Neuzner et al., An elementary quantum network of single atoms in optical cavities, Nature, vol.95, issue.7393, pp.195-200, 2012.
DOI : 10.1103/PhysRevLett.95.173602