Skip to main content Aller au menu Aller à la recherche

Jean-Jacques Greffet


Pr. Jean-Jacques Greffet

Full Professor at Institut d'Optique

Plasmonics and Quantum Nanophotonics
Tel : +33 1 64 53 31 86
ORCID: 0000-0002-4048-2150


Short Bio

Jean-Jacques Greffet received his PhD in solid state physics in 1988 from Université Paris-Sud. He is a professor at Institut d'Optique, Université Paris-Saclay and a senior member of Institut Universitaire de France.

He made contributions to light scattering of electromagnetic waves, the theory of near-field microscopy. He made seminal contributions to the topic of coherent thermal emission and near-field radiative heat transfer. He made contributions to the field of nanoantennas including the proposal for using nanoantennas with single quantum emitters to control lifetime and directionalemission.

His current research interests deals with revisiting fundamental quantum optics experiments with surface plasmons (wave-particle duality, Hong Ou Mandel experiment, photon-plasmon entanglement, electrical emission by tunnel effect) and controlling light-matter interaction at the nanoscale using resonators and collective effects.

He is an OSA fellow and the recipient of the Servant prize of the french Academy of Science.

Research activities

My research topics have expanded over the years. They can be roughly divided in the following themes:

  • Light scattering by periodic and random systems (mainly 1988-2000)
  • Theory of near-field microscopy imaging (1995-2005)
  • Thermal radiation at the nanoscale (1997-)
  • Nanoantennas (2005-)
  • Quantum plasmonics (2009-)
  • Light emitting metasurfaces (2018-)

Light scattering by periodic and random systems

From 1988 to approximately 2000, I studied light scattering, both by periodic and random systems. The approaches used were theoretical, numerical and experimental. Some significant results include the development of the volume integral equation method, early studies of weak and strong localization of surface plasmons, an assesment of the validity conditions of the radiative transfer equation at the wavelength scale, an electromagnetic theory of the bidirectional distribution function and a derivation of Kirchhoff law, the theory of reciprocity and unitarity for evanescent waves.

Papers: 1, 2, 3, 4, 6, 7, 8, 10, 11, 12, 13, 14, 15, 16, 18, 19, 20, 23, 24, 25, 27, 28, 29, 30, 32, 33, 39, 40, 42, 43, 44, 46, 49, 52, 56, 57, 59, 65, 67, 70, 71, 72, 77, 78, 81, 83, 85, 88, 93, 100, 101, 109, 129, 135, 142

Theory of near-field microscopy imaging

In the early days of SNOM (Scanning Near-field Optical Microscopy), the community was mostly driven by experimental progress with basic questions left unanswered. We applied the tools developed to study light scattering to analyze the image formation in an electromagnetic framework. This led to the clarification of a number of basic concepts of near-field optics and to the derivation of a general formulation of the link between the detected signal and the electromagnetic field at the tip position [55, 63]. A review paper [37] summarizing these results has been cited over 400 times.

Papers: 21, 22, 25, 26, 27, 28, 30, 31, 35, 36, 37, 38, 39, 41, 48, 51, 52, 55, 58, 62, 63, 73, 82.

Thermal radiation at the nanoscale

This theme started in the late nineties when I discovered that light emitted by a hot surface can be both spatially and temporally coherent [34]. This was a paradigm change and was soon followed by more than twenty groups reporting other coherent thermal sources. We were able to demonstrate experimentally a thermal source spatially coherent [64]. A review paper summarizing our early contributions [86] has been cited 720 times.

Beyond the coherence properties, a major consequence of our theoretical analysis of the thermal radiation in the near field has been the prediction of an enhancement of several orders of magnitude of the equilibrium energy density in the vicinity of the surface due to the surface phonon polariton contribution when using glass or SiC for instance. This finding led to the defintion of the local density of states in the near field of an absorbing medium. A direct consequence was the prediction of a large enhancement of the heat transfer between two bodies in the near-field in the presence of surface phonon polaritons. Since this prediction, the phenomenon has been observed independently by a group at MIT(Shen, Nanoletters, 2009) and a collaboration between my group and J. Chevrier’s group in Grenoble [112]. These observations were at the origin of a revival of this topic that had been first predicted in the late sixties. We also pointed out the potential of near-field thermal radiation for electrical energy generation using thermophotovoltaics. Our recent work focusses on the development of thermal sources with controlled spectrum, directivity and with amplitude modulation faster than 1 MHz.

Papers: 34, 42, 45, 50, 53, 54, 60, 61, 64, 68, 69, 73, 74, 75, 76, 78, 80, 84, 86, 87, 89, 91, 94, 95, 96, 97, 98, 102, 103, 104, 105, 107, 108, 112, 115, 116, 119, 120, 124, 126, 128, 130, 134, 136, 140, 142, 143, 144, 152, 155, 161, 164, 167, 169, 176, 178, 183, 185, 187.


Nanophotonics enable to increase absorption for photovoltaics applications. We have considered both periodic and random systems to tailor absorption.

Papers: 95, 110, 125, 137, 142, 147, 149, 150, 170, 176, 186.


I started working in the field of nanoantennas by studying the influence of a metallic tip on the radiation of a dipole [82], both in terms of modification of the radiative and non-radiative decay and in terms of directivity back in 2004. The term nanoantenna was coined by D. Pohl the following year in a seminal paper (Mühlschlegel et al., Nature 2005). Significant contributions include the derivation of the concept of antenna impedance [122], the demonstration of a core shell gold antenna for a single quantum dot [165], the introduction of an optical patch antenna [118].

Papers: 82, 90, 92, 110, 118, 122, 142, 154, 159, 160, 163, 165, 168, 172, 181, 185, 190, 192.

Plasmonics and Quantum plasmonics

Merging quantum otpics with nanophotonics became a topic of interest around 2010. We first reported a quantization procedure of surface plamsons [121]. We then started an experimental program aiming at reproducing textbook quantum optics experiments with plasmons. We have developed a plasmonic platform for quantum plasmonics. We have observed the wave-particle duality [171], the Hong-Ou-Mandel experiment [179] with an unexpected peak, the entanglement between a photon and a plasmon [180] and interferences with N00N states [188].

Papers: 10, 15, 19, 29, 45, 73, 74, 78, 82, 83, 86, 89, 92, 102, 111, 114, 116, 118, 121, 122, 133, 151, 153, 154, 156, 157, 165, 166, 168, 169, 171, 172, 175, 179, 180, 181, 182, 184, 188, 190.

Controlling light emission combining collective and cavity effects

Controlling light-matter interaction can be done using cavities or antennas and also using collective effects. This interplay has been studied with different systems. One of them is a toy model system realized experimentally by the group of my colleague Antoine Browaeys at Institut d’Optique. It consists of an ensemble of hundreds of atoms strongly interacting in a wavelength size volume. The other one is a dense ensemble of quantum dots or nanoplatelets deposited on resonators.

Papers: 173, 174, 177, 187, 189, 190, 191, 192


Videos and media appearances

Interview at the Max Planck Institute / Symposium on the Twenty years of Nano-Optics

Seminar at Ecole Polytechnique (in FRENCH) / Contrôle de l'émission spontanée avec des structures plasmoniques

Seminar at Institut d'Optique (in FRENCH) / Voir à travers le corps humain avec des lasers



  1. «Scattering of electromagnetic waves by rough dielectric surfaces», J.J.Greffet Physical Review B15 37, 6437-6441, (1988)

  2. «Effet photothermique appliqué à la mesure des basses températures de matériaux opaques» T.Loarer, J.J. Greffet, Revue Générale de Thermique, n° 318-319,  380-384, (1988)

  3. «Scattering of s-polarized electromagnetic waves by a 2D obstacle near an interface» J.-J. Greffet,  Optics Communications 72,  274-278, (1989).

  4. «Scattering of electromagnetic waves by a grating :  a numerical evaluation of the iterative series solution» J.-J. Greffet et  Z. Maassarani, J.Opt.Soc.Am.A 7 (1990)

  5. «Non-contact surface temperature measurement by means of a modulated photothermal effect» T.Loarer, J-J Greffet et M. Huetz-Aubert, Applied Optics 29, 979 (1990)

  6. «Comparison between theoretical and experimental scattering of an s-polarized electromagnetic wave by a 2D obstacle» J.-J.Greffet et F.R. Ladan,  Journal of the Optical Society of America A 8, 1261-1269,  (1991)

  7. «Backscattering of s-polarized light from a cloud of small particles above a  dielectric substrate»,  J.-J.Greffet, Waves in Random Media 3, S65-S73, (1991)

  8. «Theoretical model of the shift of the Brewster angle on a rough surface», J.-J.Greffet , Optics Letters 17, 238-240, (1992)

  9. «Application of the pulsed photothermal effect to fast surface temperature measurement», T.Loarer et al. J-J.Greffet, Appl. Opt. 31, 5350-5358 (1992)

  10. «Scattering by deep inhomogeneous gratings» A. Sentenac and J.-J. Greffet, 1992,  J.Opt.Soc.Am.A 9, 996-1006 (1992)

  11. «Non-specular astigmatic reflection of a 3D Gaussian beam on an interface», J.-J. Greffet and Christophe Baylard, Optics Communications 93, 271-276  (1992)

  12. «Diffraction of electromagnetic waves by crossed gratings: a series solution», J.-J. Greffet, C. Baylard and P. Versaevel, Opt. Lett. 17, 1740-1742  (1992)

  13. «Coherent reflection factor of a random rough surface : applications.» C. Baylard, J.-J. Greffet and A.A. Maradudin,  J.Opt.Soc.Am.A 10, 2637-2647 (1993)

  14. «Nonspecular reflection from a lossy dielectric», J.-J. Greffet and Christophe Baylard,  Opt. Lett. 18, 1129-1131 (1993)

  15. «Near field scattered by a dielectric particle below a metallic surface» F. Pincemin, Anne Sentenac and Jean-Jacques Greffet, J. Opt. Soc. Am. A 11, 1117-1127 (1994)

  16. «Design of surface microrelief with selective radiative properties» A. Sentenac and J. J. Greffet, International Journal of Heat and Mass Transfer 37, pp 553-558, (1994)

  17. «Study of the features of PSTM images by means of a perturbative approach» Anne Sentenac and Jean-Jacques Greffet, Ultramicroscopy 57 246-250 (1994)

  18. «Numerical simulation of the mean field in a composite medium», F. Pincemin and Jean-Jacques Greffet,  Physica A 207 pp 146-150 (1994)

  19. «Scattering of a surface plasmon by a surface defect» F. Pincemin, A.A. Maradudin, A.D. Boardman and J.-J. Greffet, Phys. Rev. B 50, pp 15 261-15 275 (1994)

  20. «Backscattering enhancement by sub-surface particles» F. Pincemin, A. Sentenac and J.-J. Greffet, Opt. Commun. 114 pp13-17 (1995)

  21. «Surface profile reconstruction using near field data» Jean-Jacques Greffet, Anne Sentenac and Rémi Carminati, Opt. Commun. 116 pp 20-24  (1995)

  22. «Two-dimensional numerical simulation of the Photon Scanning Tunneling Microscope. Concept of transfer function» Rémi Carminati and Jean-Jacques Greffet, Opt. Commun. 116, p316-321 (1995)

  23. «Scattering by 2D particles deposited on a dielectric planar waveguide : A near field and far field study» Anne Sentenac and Jean-Jacques Greffet, Waves in Random Media 5 145-155 (1995)

  24. «Comment on «Bistatic specular scattering from rough dielectric surfaces»». J.-J. Greffet, IEEE Trans. Ant. Propagat. 43 p224 (1995)

  25. «Relationship between the near field speckle pattern and the statistical properties of a surface», J.-J. Greffet and R. Carminati, Ultramicroscopy 61, 43-50 (1995)

  26. «Reconstruction of the dielectric contrast profile from near field data», R. Carminati and J.-J. Greffet, Ultramicroscopy 61, 11-16 (1995)

  27. «Influence of dielectric contrast and topography on the near field scattered by an inhomogeneous surface», R. Carminati and J. J. Greffet, J. Opt. Soc. Am. A 12,  2716-2725 (1995)

  28. «Analysis of image formation with a photon scanning tunneling microscope» F. de Fornel, P.M. Adam, L. Salomon, J.P. Goudonnet, A. Sentenac, R. Carminati and J.-J Greffet,  J. Opt. Soc. Am. A 13 35-45 (1996)

  29. «Propagation and Localization of a surface plasmon polariton on a finite grating» François Pincemin and Jean-Jacques Greffet, J. Opt. Soc. Am. B 13, 1499-1509 (1996)

  30. «Direct reconstruction of a surface profile from near-field intensity under spatially incoherent illumination», R. Carminati, Jean-Jacques Greffet, Nicolas Garcia and Manuel Nieto-Vesperinas,Opt. Lett. 21, 501-503 (1996)

  31. «Equivalence of constant-height and constant-intensity images in scanning near-field microscopy» Rémi Carminati and Jean-Jacques Greffet, Opt. Lett.21 pp 1208-1210 (1996)

  32.  «Optical properties of films containing nanoclusters : a numerical simulation », François Pincemin and Jean-Jacques Greffet, Journal of non-crystalline solids, Vol. 196 pp 95-100 (1996)

  33. «Structure of the electromagnetic field in a slab of photonic crystal», Anne Sentenac, Jean-Jacques Greffet and François Pincemin, J. Opt. Soc. Am. B 14, 339-349 (1997)

  34. «Experimental and theoretical study of reflection and coherent thermal emission by a Sic grating supporting a surface phonon polariton» J. Le Gall, M. Olivier and J.-J. Greffet, Phys Rev. B  55, p 10105 (1997)

  35. «On the equivalence between the illumination and collection modes of the scanning near-field optical microscope» E.R. Mendez, J.J. Greffet and R. Carminati. Opt. Commun.  142, pp 7-13 (1997)

  36. «Optical content and resolution of near-field optical images : influence of the operating mode», R. Carminati, A. Madrazo, M. Nieto-Vesperinas and J.-J. Greffet, J. Appl. Phys. 82, pp.501-509 (1997)

  37. «Image formation in near-field optics», J.J. Greffet and R. Carminati, Progress in Surface Science, 56 pp 133-237 (1997)

  38. « Polarization effects in the optical interaction between a nanoparticle and a corrugated surface : implications for apertureless near-field microscopy. » A. Madrazo, R. Carminati, M. Nieto-Vesperinas and J.J. Greffet, J. Opt. Soc. Am. A. 15, 109-119 (1998)

  39. « Reciprocity of evanescent electromagnetic waves ». Rémi Carminati, M. Nieto-Vesperinas and Jean-Jacques Greffet,   15 pp 706-712 J. Opt. Soc. Am. A. (1998)

  40. «Mean-Field theory of light scattering by one-dimensional rough surfaces.» A. Sentenac and J.-J. Greffet  J. Opt. Soc. Am. A. 15 pp528-532 (1998)

  41. « Contrast mechanisms in illumination-mode SNOM » P. Valle, R. Carminati, J.-J. Greffet,  Ultramicroscopy 71 pp 39-48 (1998)

  42. «Field theory for the generalized bidirectional reflectivity: derivation of Helmholtz's reciprocity principle and Kirchhoff's law.» J.-J. Greffet and M. Nieto Vesperinas, J. Opt. Soc. Am. A.  10 pp 2735-2744 (1998)

  43. «A numerical evaluation of Rayleigh's theory applied to scattering by randomly rough dielectric surfaces» S. Mainguy, J.J. Greffet, 8 pp 79-101 (1998)

  44. « Light Scattering by a two-dimensional rough penetrable medium. A mean-field theory » O. Calvo-Perez, A. Sentenac and J.-J. Greffet, Radio Science  35, pp 311-335, (1999)

  45. « Near-field effects in spatial coherence of thermal sources » R. Carminati, J.-J. Greffet, Phys. Rev. Lett.  82, p 1660 (1999)

  46. «Scattering by randomly rough dielectric surfaces : Influence of the height distribution.» O. Calvo-Perez, J.-J. Greffet , A. Sentenac, J. Opt. A : Pure Appl. Opt. 1 p 560-565 (1999)

  47. «Optical contrast, topographic contrast and artifacts in illumination-mode scanning near-field optical microscopy» P. Valle, J.-J. Greffet , R. Carminati ,   J. Appl. Phys., 86, pp 648-656 (1999)

  48. « Near-field optical spectroscopy using an incoherent light source » L. Aigouy, F.X. Andréani, A.C. Boccara, J.C. Rivoal, J.A. Porto, R. Carminati, J.J. Greffet, R. Mégy, Appl. Phys. Lett. 76, 397 (2000)

  49. «Scattering of a diffusive wave by a subsurface object »  J.B. Thibaud, R. Carminati, J.-J. Greffet, J. Appl. Phys. 87 p 7638-7646 (2000)

  50. «Radiative transfer at nanometric scale : are the usual concepts still valid ? » J.J. Greffet, R. Carminati, International Journal of Heat and Technology, 18 pp 81-85 (2000)

  51. « Theory of electrostatic probe microscopy : a simple perturbative approach. ». S. Gomez-Monivas, J.J. Saenz, R. Carminati and J.J. Greffet. Appl. Phys. Lett. 76 p 2955-2957 (2000)

  52. « Reciprocity, unitarity and time-reversal symmetry of the S-matrix of fields evanescent components » R. Carminati, J.J. Saenz, J.J. Greffet and M. Nieto Vesperinas.  Phys. Rev. A. 62 p 12712-12718 (2000)

  53. « Near-field spectral effects due to electromagnetic surface excitations ». A. Shchegrov, K. Joulain, R. Carminati and J.J. Greffet, Phys.Rev.Lett. 85 p 1548-15451 (2000)

  54. « Spatial coherence of thermal near-fields » C. Henkel, K. Joulain, R. Carminati and J.J. Greffet. Opt. Commun. 186, pp 57-67 (2000)

  55. « Theory of electromagnetic field imaging and spectroscopy in scanning near-field optical microscopy » J. A. Porto, R.Carminati and J.J. Greffet, J. Appl. Phys.  88 pp 4845-4850 (2000)

  56. «Scattering by a slab containing randomly located cylinders : comparison between radiative transfer and electromagnetic simulation » L. Roux, P. Mareschal, N. Vukadinovic,  J.B. Thibaud, J.J. Greffet. J. Opt. Soc. Am.A,  2, pp 374-378 (2001)

  57. «Theoretical and experimental investigation of the extinction in a Dense Distribution of Particles. Non-local effects. » L. Hespel, S. Mainguy, J.J. Greffet, J.Opt.Soc.Am.A 18 pp 3072-3076, (2001)

  58. «The influence of tip modulation in image formation in scanning near-field optical microscopy» J.N. Walford, J.A. Porto, R. Carminati, J.-J. Greffet, P.M. Adam, S. Hudlet, J.-L. Bijeon, A. Stashkevich, P. Royer. J. Appl. Phys.  89 pp 5159-5169 (2001)

  59. « Light scattering from cold rolled aluminum surfaces » D. Vandembroucq, A. Tarrats, J.J. Greffet et al., Opt. Commun.  187, pp 289-294 (2001).

  60. «Comment on «Radiative Transfer over small distances from a heated metal»» J.P. Mulet, K. Joulain, R. Carminati and J.J. Greffet Opt. Lett. 26,  pp 480-481, (2001)

  61. « Nanoscale radiative heat transfer between a small particle and a plane surface » J.P. Mulet, K. Joulain, R. Carminati and J.J. Greffet, Appl. Phys. Lett. 78, 2931-2933 (2001)

  62. « Tip-shape effects on electrostatic force microscopy resolution » S. Gomez Monivas, LS Froufe, R. Carminati, J.J. Greffet, J.J. Saenz, Nanotechnology  12, pp 496-499 (2001)

  63. « Theory of near-field magneto-optical imaging » J.N. Walford, J.A.Porto, R. Carminati, J.J. Greffet J. Opt. Soc. Am. 19 p 572 (2002)

  64. « Coherent emission of light by thermal sources » J.J. Greffet, R. Carminati, K. Joulain, J.P. Mulet, S. Mainguy and Y Chen, Nature  416 p 61 (2002)

  65. « The diffusion of partially coherent beams in turbulent media » S. Ponomarenko, J.J. Greffet and E. Wolf, Opt. Commun. 208 pp 1-8 (2002)

  66. «Enhanced radiative heat transfer at nanometric distances» J.P. Mulet, K. Joulain, R. Carminati, J.J. Greffet, Microscale Thermophysical Engineering 6 pp 209-222 (2002)

  67. «Time-dependent transport through scattering media : from radiative transfer to diffusion» R. Elaloufi, R. Carminati, J.J. Greffet, J. of Optics A 4 pp S103-S108 (2002)

  68. «Radiative forces on small particles in thermal near fields» C. Henkel, K. Joulain, J.P. Mulet, J.J. Greffet, J. of Optics A 4 pp S109 (2002)

  69. «Nanoscale radiative heating of a sample with a probe» K. Joulain, J.P. Mulet, R. Carminati, J.J. Greffet, Journal of Magnetism and Magnetic Materials 249 pp 464-467 (2002)

  70. «Definition of the diffusion coefficient in scattering and absorbing media» R. Elaloufi, R. Carminati, J.J. Greffet, J. Opt.Soc.Am.A 20 pp 678-685 (2003)

  71. «Radiative properties of scattering and absorbing dense media : theory and experiment». L. Hespel, S. Mainguy, J.J. Greffet, J. Quant.Spectr.Rad.Transfer 77 pp 193-210 (2003)

  72. « Influence of spatial coherence on scattering by a particle » J.J. Greffet, M. de la Cruz Gutierrez, F. Ignatovich, A. Radundinsky, J. Opt. Soc. Am. A  20, 2315 (2003)

  73. «Definition and measurement of the local density of electromagnetic states close to an interface» K. Joulain, R. Carminati, J.P. Mulet and J.J. Greffet, Phys.Rev.B 68, 245405 (2003)

  74. «Coupled surface polaritons and the Casimir force» C. Henkel, K. Joulain, J.P. Mulet, J.J. Greffet, Phys.Rev.A 69, 023803 (2004)

  75. « Friction forces arising from fluctuating thermal fields» J. Zurita-Sanchez, J.J. Greffet and L. Novotny, Phys.Rev.A 69, 022902 (2004)

  76. «Coherent spontaneous emission of light by thermal sources» F. Marquier, K. Joulain, J.P. Mulet, R. Carminati, J.J. Greffet, Y. Chen, Phys.Rev.B 69, 155412 (2004)

  77. «Beyond the diffusive wave spectroscopy model for the temporal fluctuations of scattered light» R. Elaloufi, R. Carminati, J.J. Greffet, Phys.Rev.Lett. 92, 213903 (2004)

  78. «Influence of microroughness on emissivity» F. Ghmari, T. Ghbara, M. Laroche, R. Carminati, J.J. Greffet, J. Appl. Phys. 96, 2656 (2004)

  79. «Resonant infrared transmission through SiC films» F. Marquier, K. Joulain, J.J. Greffet, Opt.Lett. 29,  2178 (2004)

  80. «Engineering infrared emission properties of silicon in the near field and the far field» F. Marquier, K. Joulain, J.P. Mulet, R. Carminati, J.J. Greffet, Opt.Commun. 237, 379-388 (2004)

  81. «Diffusive-to-Ballistic transition in dynamic light transmission through thin scattering slabs: a radiative transfer approach» R. Elaloufi, R. Carminati, J.J. Greffet, J. Opt. Soc.Am.A 21, 1430 (2004)

  82. «Single-molecule spontaneous emission close to absorbing metallic nanostructures» M.Thomas, R.Carminati, J.J.Greffet, J.R.Arias-Gonzalez Appl.Phys.Lett. 85, 3863-3865 (2004)

  83. «Resonant transmission through a metallic film due to coupled modes» F. Marquier, J.J. Greffet, S. Collin, F. Pardo and J.L. Pelouard, Opt. Express 13, 70-76 (2005)

  84. «Heat transfer between two nanoparticles through near field interaction» G. Domingues, S. Volz, K. Joulain, J.J. Greffet, Phys. Rev. Lett. 94, 085901 (2005)

  85. «Resonant optical transmission through a photonic crystal in the forbidden gap» M. Laroche, R. Carminati, J.J. Greffet, Phys.Rev.B 71, 155113 (2005)

  86. «Surface electromagnetic waves thermally excited : radiative heat transfer, coherence properties and Casimir forces revisited in the near field», K. Joulain, J.P. Mulet, F. Marquier, R. Carminati, J.J. Greffet, Surf. Sci.Rep. 57, 59-112 (2005)

  87. «Tailoring silicon radiative properties», M. Laroche, F. Marquier, R. Carminati, J.J. Greffet, Opt.Commun. 250, 316 (2005)

  88. «Spatial coherence in strongly scattering media» R. Pierrat, J.J. Greffet, R. Carminati, R. Elaloufi, J. Opt. Soc. Am.A 22 p 2329-2337 (2005)

  89. «Highly directional radiation generated by a tungsten thermal source», M. Laroche, F. Marquier, C. Arnold, R. Carminati, J.J. Greffet, S. Collin, N. Bardou, J.L. Pelouard, Opt.Lett. 30, p 2623 (2005)

  90. «Nanoantennas for Light Emission» Jean-Jacques Greffet, Science 308, p 156 (2005)

  91. «Coherent thermal antenna using a photonic crystal slab», Marine Laroche, R. Carminati, J.J. Greffet, Phys.Rev.Lett. 96, 123903 (2006)

  92. «Radiative and non-radiative decay of a single molecule close to a metallic nanoparticle» R. Carminati, J.J. Greffet, C. Henkel, J.M. Vigoureux, Opt. Commun. 261, p 368 (2006)

  93. «Photon diffusion coefficient in scattering and absorbing media» R. Pierrat, J.J. Greffet, R. Carminati, J. Opt. Soc. Am. A 23 p 1106-1110 (2006)

  94. «Heat transfer between a nano-tip and a surface» P.O. Chapuis, J.J. Greffet, K. Joulain, S. Volz, Nanotechnology 17 p 2978-2981 ( 2006)

  95. «Near-field thermophotovoltaic energy conversion» M. Laroche, R. Carminati, J.J. Greffet, J. Appl.Phys. 100, 063704 (2006)

  96. «Thermal Radiation Scanning Tunnelling Microscopy» Y. De Wilde, F. Formanek, R. Carminati, B. Gralak, P.A. Lemoine, K. Joulain, J.P. Mulet, Y. Chen and J.J. Greffet, 444, p 740 Nature (2006)

  97. «Anisotropic polarized emission of a doped silicon lamellar grating », F. Marquier, M. Laroche, R. Carminati and J.-J. Greffet, Journal of Heat Transfer 129, p 11 (2007)

  98. «Coherent thermal radiation», Contemporary Physics 48 p 183 , J.J. Greffet and C. Henkel, (2007)

  99. «Microlitre hot strip devices for thermal characterization of nanofluids» G. Velve-Casquillas, M. Le Berre, C. Peroz, Y. Chen, J.J. Greffet, Microelectronic Engineering 84, p1194 (2007)

  100. «Light scattering by a random distribution of particles embedded in absorbing media: diagrammatic expansion of the extinction coefficient» S. Durant, O. Calvo-Perez, N. Vukadinovic and J.J. Greffet, J. Opt. Soc. Am. A 24 , p 2943 (2007)

  101. «Light scattering by a random distribution of particles embedded in absorbing media: full-wave Monte Carlo solutions of the extinction coefficient» S. Durant, O. Calvo-Perez, N. Vukadinovic and J.J. Greffet, J. Opt. Soc. Am. A 24, p 2953 (2007)

  102. «Effects of spatial dispersion in near-field radiative heat transfer between two parallel metallic surfaces », Pierre-Olivier Chapuis,  Sebastian Volz, Carsten Henkel, Karl Joulain,  Jean-Jacques Greffet, Phys.Rev. B 77, 035431 (2008)

  103. «Near-field induction heating of metallic nanoparticles due to infrared magnetic dipole contribution » Pierre-Olivier Chapuis, Marine Laroche, Sebastian Volz, and Jean-Jacques Greffet, Phys. Rev. B 77, 125402 (2008)

  104. «Degree of polarization of thermal light emitted by gratings supporting surface waves », Francois Marquier, Marine Laroche, Christophe Arnold, Yong Chen, Opt. Exp.16, p 5305(2008)

  105. « Radiative heat transfer between metallic nanoparticles » Pierre-Olivier Chapuis, Marine Laroche, Sebastian Volz, and Jean-Jacques Greffet Appl.Phys. Lett. 92, 201906 (2008)

  106. «Thermo-resistance based micro-calorimeter for continuous chemical enthalpy measurements » G Velve-Casquillas, Bertholle F, Le Berre M, S. Meance, L. Malaquin, JJ Greffet, Y. Chen, Microelectronic Engineering  85  p1367-1369 (2008)

  107. «Improving selective thermal emission properties of three dimensional macroporous silicon through porosity tuning » M. Garin, T. Trifonov, A. Rodriguez, R. Acubilla, F. Marquier, C. Arnold, J.J. Greffet,  Appl.Phys.Lett. 93 081913 (2008)

  108. «Enhanced absorption by nanostructured silicon», S Bandiera, D. Jacob, T. Muller, F. Marquier, M. Laroche, J.J. Greffet, Appl.Phys.Lett. 93 193103 (2008)

  109. «Polarization conversion with a photonic crystal slab» M. Laroche, F. Marquier, C. Vandenbem, J.J. Greffet, Journal of the European Optical Society Rapid Publications 3 08038 (2008)

  110. «Influence of metallic nanoparticles on upconversion processes», R. Esteban, M.Laroche, J.J. Greffet, J. Appl.Phys. 105 033107 (2009)

  111. «Surface plasmons Fourier optics», A. Archambault, T.V.Teperik, F. Marquier, J.J. Greffet, Phys.Rev.B 79, 195414 (2009)

  112. «Radiative heat transfer at the nanoscale»,  E. Rousseau, A. Siria, G. Jourdan, S. Volz, F. Comin, J. Chevrier and J.J. Greffet, Nature Photonics 3, p 514 (2009)

  113. «Effect of vortices on the spin-flip lifetime of atoms in superconducting atom-chips», G. Nogues, C. Roux, T. Nirrengarten, A. Lupasçu, A. Emmert, M. Brune, J.-M. Raimond, S. Haroche, B. Plaçais, J.J. Greffet Europhysics Letters 87, 13002 (2009)

  114. «Huygens-Fresnel principle for surface plasmons», T.V.Teperik, A. Archambault, F. Marquier, J.J. Greffet, Opt.Express 17, p 17483 (2009)

  115. «Quantum thermal bath for molecular dynamics simulation», H. Dammak, Y. Chalopin, M. Laroche, M. Hayoun, J.J. Greffet, Phys.Rev.Lett. 103, 190601 (2009)

  116. «Radiative heat transfer at nanoscale mediated by surface plasmons for highly doped silicon» E. Rousseau, M. Laroche, JJ Greffet,  Appl. Phys. Lett. 95, 231913 (2009)

  117. «Electrical excitation of surface phonon-polaritons in III-V heterostructures : a Monte Carlo study.» F. Mazzamuto, J. Saint-Martin, A. Bournel, P. Dollfus, A. Archambault, F. Marquier, JJ Greffet, J. of Physics, conference series 193, 012015 (2009)

  118. «Optical patch antennas for single photon emission using surface plasmon resonances», R. Esteban, T.V. Teperik, J.J. Greffet, Phys.Rev.Lett. 104, 026802 (2010)

  119. «Radiative heat transfer at nanoscale: Closed-form expression for silicon at different doping levels.» E. Rousseau, M. Laroche, JJ Greffet, Journal of Quantitative Spectroscopy and Radiative Transfer 111, 1005-1014 (2010)

  120. «Near-field heat transfer between a nanoparticle and a rough surface.» SA Biehs, JJ Greffet, Phys.Rev B 81, 245414 (2010)

  121. «Quantum theory of spontaneous and stimulated emission of surface plasmons», A. Archambault, F. Marquier, J.J. Greffet, C. Arnold, Phys.Rev.B 82, 035411 (2010)

  122. «Impedance of a nanoantenna and a single quantum emitter», JJ Greffet, M. Laroche, F. Marquier, Phys.Rev.Lett. 105, 117701 (2010)

  123. «Tailoring GaAs teraHertz radiative properties with surface phonons polaritons», S. Vassant, F. Marquier, J.J. Greffet, F. Pardo, J.L. Pelouard, Appl.Phys.Lett. 97, 161101 (2010)

  124. «Mesoscopic description of radiative heat transfer at the nanoscale», S.A. Biehs, E. Rousseau, JJ Greffet, Phys.Rev.Lett. 105, 234301 (2010)

  125. «Dielectric gratings for wide-angle, broadband absorption by thin film photovoltaic cells», R. Esteban, M. Laroche, JJ Greffet, Appl.Phys.Lett. 97, 221 111 (2010)

  126. «Influence of roughness on near-field heat transfer between two plates», S.A. Biehs, JJ Greffet, Phys.Rev.B 82, 245 410 (2010)

  127. «Fast microfluidic temperature control for high resolution live cell imaging», G.V. Casquillas, CH Fu, M. Le Berre, J. Cramer, S. Meance, A. Plecis, D. Baigl, JJ Greffet, Y Chen, M. Piel, PT Tran, Lab on a Chip 11, p 484 (2011)

  128. «Fast nanoscale heat-flux modulation with phase change materials», PJ van Zwol, K. Joulain, P. Ben Abdallah, J.J. Greffet, J. Chevrier, Phys.Rev.B 83, 201404 (2011)

  129. «Increasing the bandwidth of coaxial aperture arrays in radar frequencies», S. Nosal, P. Soudais, J.J. Greffet, Appl.Phys. A, Materials Sciences and Processing 103, 645 (2011)

  130. «Nanoscale heat flux between nanoporous materials», S.A. Biehs, P. Ben-Abdallah, F.S.S. Rosa, K. Joulain, J.J. Greffet, Opt.Express 19, A1088 (2011)

  131. «Controlled incandescence», Jean-Jacques Greffet, Nature 478, p 191 (2011)

  132. «Comment on «Quantum thermal bath for molecular dynamics simulation» reply», Phys. Rev.Lett. 107, 198902 (2011)

  133. «Statistical properties of spontaneous emission from atoms near a rough surface», S.A. Biehs, J.J. Greffet, Phys.Rev.A 84, 052902 (2011)

  134. «Radiative heat transfer from a blackbody to dielectric nanoparticles», Y. Chalopin, H. Dammak, M. Laroche, M. Hayoun, J.J. Greffet, Phys.Rev.B 84, 224301 (2011)

  135. «Integral equation modelling of doubly periodic structures with an efficient PMCHWT formulation», S. Nosal, P. Soudais, JJ Greffet, IEEE Trans.Antennas Propag. 60, 292 (2012)

  136. «Asymptotic expressions describing radiative heat transfer between polar materials from the far-field regime to the nanoscale regime», E. Rousseau, M. Laroche, JJ Greffet, J. Appl. Phys. 111, 014311 (2012)

  137. «Mo/Cu(In,Ga)Se-2 back interface chemical and optical properties for ultrathin CIGSe solar cells», F. Erfurth, Z. Jehl, M. Bouttemy, N. Dahan, P. Tran-Van, I. Gerard, A. Etcheberry, LJJ Greffet, M. Powalla, G. Woorwinden, D. Lincot, JF Guillemoles, N. Neghavi, Applied Surface Science 258, p 3058, (2012)

  138. «Experimental study of hot spots in gold/glass nanocomposites films by photoemission electron microscopy», C. Awada, G. Barbillon, F. Charra, L. Douillard, JJ Greffet Phys. Rev.B 85, 045438 (2012)

  139. «Infuence of a depletion layer on localized surface waves in doped semiconductor nanostructures», S. Vassant, F. Pardo, P. Bouchon, R. Haidar, F. Marquier, J.J. Greffet, J.L. Pelouard, Appl.Phys.Lett. 100, 091103 (2012)

  140. «Enhanced radiative heat transfer between nanostructured gold plates», R. Guerout, J. Lussange, F.S.S. Rosa, J.P. Hugonin, D.A.R. Dalvit, J.J. Greffet, A. Lambrecht, S. Reynaud, Phys.Rev.B 85, 180301(R) (2012)

  141. «Size-dependent infrared properties of MgO nanoparticles with evidence of screening effect», Y. Chalopin, H. Dammak, M. Hayoun, M. Besbes, J.J. Greffet, Appl.Phys.Lett. 100, 241904 (2012)

  142. «Enhanced scattering and absorption due to the presence of a particle close to an interface», N. Dahan, J.J. Greffet, Opt. Exp. 20, A530 (2012)

  143. «Coherent thermal infrared emission by two-dimensional silicon carbide gratings», C. Arnold, F. Marquier, M. Garin, F. Pardo, S. Collin, N. Bardou, J.L. Pelouard, J.J. Greffet, Phys.Rev.B 86, 035316 (2012)

  144. «Radiative heat transfer between two dielectrics nanogratings in the scattering approach», J. Lussange, R. Guerout, F.S.S. Rosa, J.J. Greffet, A. Lambrecht, S. Reynaud, Phys.Rev.B 86, 085432 (2012)

  145. «Superlens in the time domain», A. Archambault, M. Besbes, J.J. Greffet, Phys.Rev.Lett. 109, 097405 (2012)

  146. «Berreman mode and epsilon near zero mode», S. Vassant, J.P. Hugonin, F. Marquier, J.J. Greffet, Opt.Express 20, 23971 (2012)

  147. «Optical approaches to improve the photocurrent generation in Cu(In,Ga)Se2 solar cells with absorber thicknesses down to 0.5 μm», N. Dahan, Z. Jehl, T. Hildebrandt, J.-J. Greffet, J.-F. Guillemoles, D. Lincot, and N. Naghavi, J. Appl. Phys. 112, 094902 (2012)

  148. «Epsilon-Near-Zero Mode for Active Optoelectronic Devices», S. Vassant, A. Archambault, F. Marquier, F. Pardo, U. Gennser, A. Cavanna, J.L. Pelouard, J.J. Greffet, Phys.Rev.Lett. 109, 237401 (2012)

  149. «Hot Carrier Solar Cells: Controlling Thermalization in Ultrathin Devices», A. Le Bris, J. Rodière, C. Colin, S. Collin, J.L. Pelouard, R. Esteban, M. Laroche, J.J. Greffet, J.F. Guillemoles, IEEE J. of Photovoltaics 2, 506-511 (2012)

  150. «Using radiative transfer equation to model absorption by thin Cu(In,Ga)Se2 solar cells with Lambertian back reflector», N. Dahan,  Z. Jehl, J . F. Guillemoles, D. Lincot, N. Naghavi and J.-J. Greffet, Optics Express 21, p 2564 (2013)

  151. «Tuning the electromagnetic local density of states in graphene-covered systems via strong coupling with graphene plasmons», R. Messina, J.P. Hugonin, J.J. Greffet, F. Marquier, Y. de Wilde, A. Belarouci, L. Frechette, Y. Cordier, P. Ben-Abdallah, Phys.Rev.B 87, 085421 (2013)

  152. «Electrical modulation of emissivity», S. Vassant, I. Moldovan Doyen, F. Marquier, F. Pardo, U. Gennser, A. Cavanna, J.L. Pelouard, J.J. Greffet, Appl.Phys.Lett. 102, 081125 (2013)

  153. «A hybrid plasmonic semiconductor laser», D. Costantini, L. Greusard, A. Bousseksou, Y. De Wilde, B. Habert, F. Marquier, J.J. Greffet, F. Lelarge, J. Decobert, G.H. Duan, R. Colombelli, Appl.Phys.Lett. 102, 101106 (2013)

  154. «Controlling Spontaneous Emission with Plasmonic Optical Patch Antennas», C. Belacel, B. Habert, F. Bigourdan, F. Marquier, J.P. Hugonin, S. Michaelis de Vasconcelos, X. Lafosse, L. Coolen, C. Schwob, C. Javaux, B. Dubertret, J.J. Greffet, P. Senellart, A. Maître, Nanoletters 13, p 1516 (2013)

  155. «Blackbody spectrum revisited in the near field», A. Babuty, K. Joulain, PO Chapuis, JJ Greffet, Y De Wilde, Phys.Rev.Lett. 110, 146103 (2013)

  156. «Confined Tamm plasmon lasers», C. Symmonds, G. Lheureux, J.P. Hugonin, J.J. Greffet, J. Laverdant, G. Brucoli, A. Lemaitre, P. Senellart, J. Bellessa, Nanoletters 13, p 3179 (2013)

  157. «Experimental evidence of nanometer-scale confinement of plasmonic eigenmodes responsible for hot spots in random metallic films», Arthur Losquin, Sophie Camelio, David Rossouw, Mondher Besbes, Frédéric Pailloux,  David Babonneau, Gianluigi A. Botton,  Jean-Jacques Greffet, Odile Stéphan, Mathieu Kociak,  Phys. Rev. B 88, 115427 (2013)

  158. «Epsilon-near-zero Strong Coupling in Meta-material-Semiconductor Hybrid Structures», Jun Young Chul, Reno J., Ribaudo T, Shaner E., Greffet JJ, Vassant S., Marquier F., Sinclair M., Brener I., NanoLetters 13, p 5391 (2013)

  159. «Stimulated Emission Depletion Microscopy Resolves Individual Nitrogen Vacancy Centers in Diamond Nanocrystals», Arroyo-Camejo S, Adam MP, Besbes M., Hugonin JP, Jacques V., Greffet JJ, Roch JF, Hell SW, Treussart F., ACS Nano 7, p 10912 (2013)

  160. «Design of Highly efficient metallo-dielectric patch antennas for single photon emission», F. Bigourdan, F. Marquier, JP Hugonin, JJ Greffet, Optics Express 22, p 2337 (2014)

  161. «High efficiency quasi-monochromatic infra red emitter», G. Bruccoli, P. Bouchon, R. Haidar, M. Besbes, H. Benisty, J.J. Greffet,  Appl.Phys.Lett. 104, 081101 (2014)

  162. «Brewster «mode» in highly doped semiconductor layers: an all-optical technique to monitor doping concentration», Taliercio, Thierry; Guilengui, Vilianne Ntsame; Cerutti, Laurent; E. Tournie, J.J. Greffet, Optics Express 22, 24294 (2014)

  163. «Giant field enhancement in electromagnetic Helmholtz nanoantenna», P. Chevalier, P. Bouchon, J.J. Greffet, J.L. Pelouard, R. Haidar,  Phys.Rev.B 90, 195412 (2014)

  164. «Graphene optical to thermal converter», A. Manjavacas, S. Thongrattanasiri, J.J. Greffet, F.G.J de Abajo, Appl.Phys.Lett. 105, 211102 (2014)

  165. «Non-blinking quantum dot with a plasmonic nanoshell resonator», Botao Ji, Emerson Giovanelli, Benjamin Habert, Piernicola Spinicelli, Michel Nasilowski, Xiangzhen Xu, Nicolas Lequeux, Jean-Paul Hugonin, Francois Marquier, Jean-Jacques Greffet, Benoit Dubertret, Nature Nanotechnology 10, p 170 (2015)

  166. «Temperature dependence of quantum dot fluorescence assisted by plasmonic nanoantennas», Q. Le-Van, X. Le Roux, T.V. Teperik, B. Habert, F. Marquier, J.J. Greffet, A. Degiron, Phys.Rev.B 91, 085412 (2015)

  167. «Influence of emissivity tailoring on radiative membranes thermal behavior for gas sensing applications», Lefebvre, A Costantini, D, Brucoli G, Greffet, JJ, H. Benisty SENSORS AND ACTUATORS B-CHEMICAL 213,  53 (2015)

  168. «Polarization-controlled confined Tamm plasmon lasers», G. Lheureux, S. Azzini, C. Symmonds, P. Senellart, A. Lemaitre, C. Sauvan, JP Hugonin, JJ Greffet, J. Bellessa, ACS Photonics 2, 842 (2015)

  169. «Plasmonic metasurface for directional and frequency-selective thermal emission», D Costantini, A. Lefebvre, A.L. Coutrot, I. Moldovan-Doyen, JP Hugonin, S. Boutami, F. Marquier, H. Benisty, JJ Greffet, Phys. Rev. Applied 4, 014023 (2015)

  170. «A surface-scattering model satisfying energy conservation and reciprocity», Karthik Sasihithlu, Nir Dahan, Jean-Paul Hugonin, Jean-Jacques Greffet, Journal of Quantitative Spectroscopy and Radiative Transfer 171, p 14 (2016)

  171. «Single-plasmon interferences», MC Dheur, E. Devaux, T.W. Ebbesen, A. Baron, JC Rodier, JP Hugonin, P. Lalanne, JJ Greffet, G. Messin, F. Marquier, Science Advances 2, e1501574 (2016).

  172. «Nanoantenna for electrical generation of surface plasmon», F. Bigourdan, JP Hugonin, F. Marquier, C. Sauvan, JJ Greffet, Phys.Rev.Lett. 116, 106803 (2016)

  173. «Coherent scattering of near-resonant light by a dense microscopic cold atomic cloud», Stephan Jennewein, M. Besbes, N.J. Schilder, Y. Sortais, J.J. Greffet, A Browaeys, Phys.Rev.Lett. 116, 233601 (2016)

  174. «Polaritonic modes in a dense cloud of cold atoms», N. J. Schilder, C. Sauvan, J.P. Hugonin, S. Jennewein, Y.R.P. Sortais, A. Browaeys, JJ Greffet, Phys.Rev.A 93, 063835 (2016)

  175. «CMOS compatible metal-insulator-metal plasmonic perfect absorbers», A. Lefebvre, D. Costantini, I. Doyen, Q. Levesque, E. Lorent, D. Jacolin, JJ Greffet, S. Boutami, H. Benisty, Optical Materials Express 6, 2389 (2016)

  176. «Roadmap on optical energy conversion», Boriskina SV et al., J. of Optics 18, 073004 (2016)

  177. «Propagation of light through small clouds of cold interacting atoms», S. Jennewein, Y. R. P. Sortais, J.-J. Greffet, and A. Browaeys, Phys. Rev. A 94, 053828 (2016)

  178. «Revisiting Thermal radiation in the near field», JJ Greffet, Comptes Rendus Physique 18, 24-30 (2017)

  179. «Anti-coalescence of bosons on a lossy beam splitter», B. Vest, M.C Dheur, E. Devaux, A. Baron, E. Rousseau, J.P. Hugonin, J.J. Greffet, G. Messin, F. Marquier, Science 356, 1373 (2017)

  180. «Remote preparation of single-plasmon states», M.C. Dheur, B. Vest, E. Devaux, A. Baron, J.-P. Hugonin, J.J. Greffet, G. Messin, F. Marquier, Phys.Rev.B 96, 045432 (2017).

  181. «Revisiting quantum optics with surface plasmons and plasmonic resonators», F. Marquier, C. Sauvan, J.J. Greffet, ACS Photonics 4, 2091 (2017)

  182. «Revealing the spectral response of a plasmonic lens using low-energy electrons», S. Cao, E. Le Moal, F. Bigourdan, J.P. Hugonin, J.J. Greffet, A. Drezet, S. Huant, G. Dujardin, E. Boer-Duchemin, Phys.Rev.B 96, 115419 (2017)

  183. «Mid-Infrared ultrastrong light-matter coupling for THz thermal emission», B. Askenazi, A. Vasaneli, Y. Todorov, E. Sakat, J.J. Greffet, G. Beaudoin, I. Sagnes, C. Sirtori, ACS Photonics (2017)

  184. «Hyperbolic metamaterials and surface plasmon polaritons», F. Peragut, L. Cerruti, A. Baranov, J.P. Hugonin, T. Taliercio, Y. De Wilde, J.J. Greffet, Optica 4, 1409 (2017)

  185. «Enhancing thermal radiation with nanoantennas to create infrared sources with high modulation rates», E. Sakat, L. Wojszvzyk, J.P. Hugonin, M. Besbes, C. Sauvan, J.J. Greffet, Optica 5, 175 (2018)

  186. «Light trapping in ultrathin CIGS solar cell with absorber thickness of 0.1 µm», K. Sasihithlu, N. Dahan, J.J. Greffet, IEEE Journal of Photovoltaics, 10.1109/JPHOTOV.2018.2797522, (2018)

  187. «Light emission by nonequilibrium bodies: local Kirchhoff law», J.J. Greffet, P. Bouchon, G. Brucoli, F. Marquier, Phys.Rev.X 8, 021008 (2018)

  188. «Plasmonic Interferences of two-particle N00N states», B. Vest, I. Shlesinger, M.C. Dheur, E. Devaux, J.-J. Greffet, G. Messin, F. Marquier, New J. Phys. 20 053050 (2018).

  189. «Tunable bandwidth and nonlinearities in an atom-photon interface with subradiant states», I. Shlesinger, P. Senellart, L. Lanco, J.J. Greffet, Phys.Rev.A 98, 013813 (2018)

  190. «Revisiting the Role of Metallic Antennas to Control Light Emission by Lead Salt Nanocrystals Assemblies», H. Wang, A. Aassime, X. Le Roux, N. J. Schilder, J.J. Greffet, A. Degiron, Phys.Rev.Appl. 10, 034042 (2018)

  191. «Optical transmission of an atomic vapor in the mesoscopic regime», T. Peyrot, Y.R.P. Sortais, J.-J. Greffet, A. Browaeys, A. Sargsyan, J. Keaveney, I.G. Hugues, C.S. Adams, Phys.Rev.Lett. 122, 113401 (2019)

  192. «Light emission by a thermalized ensemble of emitters coupled to a resonant structure», L. Wojszvzyk, H. Monin, J.J. Greffet, Adv. Optical Mater. 20,  1801697 (2019)

  193. « Strong Coupling of Nanoplatelets and Surface Plasmons on a Gold Surface » I. Shlesinger, H. Monin, J. Moreau, J.-P. Hugonin, M. Dufour, S. Ithurria, B. Vest, J.-J. Greffet , ACS Photonics (2019).

  194. « Antenna surface plasmon emission by inelastic tunneling » C. Zhang, J.-P. Hugonin, A.-L. Coutrot, C. Sauvan, F. Marquier, J.-J. Greffet, Nat. Comms 10, 4949 (2019). doi:10.1038/s41467-019-12866-3

  195. « Near-Resonant Light Scattering by a Subwavelength Ensemble of Identical Atoms » N.J. Schilder, C. Sauvan, Y.R.P. Sortais, A. Browaeys, J.-J. Greffet, Phys. Rev. Lett. 124, 073403 (2020).


Site réalisé par Intuitiv Interactive