Selected Publications

79. Cavity-Enhanced Energy Transport in Molecular Systems,
Gal Sandik, Johannes Feist, Francisco J. García-Vidal, and Tal Schwartz,
Nature Materials 24, 344 (2025). [URL]		 Cavity-Enhanced Energy Transport in Molecular Systems
78. Fabry-Perot Resonances in Bilayer Metasurfaces,
G. Alagappan, F. J. García-Vidal, and C. E. Png,
Physical Review Letters 133, 226901 (2024). [URL]		 Fabry-Perot Resonances in Bilayer Metasurfaces
77. Spontaneous Symmetry Breaking in Diffraction,
J. Abad-Arredondo, Z. Geng, G. Keijsers, F. Bijloo, F. J. García-Vidal, A. I. Fernández-Domínguez, and S. R. K. Rodriguez,
Physical Review Letters 133, 133803 (2024). [URL]		 Spontaneous Symmetry Breaking in Diffraction
76. Unconventional Magnetism Mediated by Spin-Phonon-Photon Coupling,
Petros Andreas Pantazopoulos, Johannes Feist, Francisco J. García-Vidal, Akashdeep Kamra,
Nature Communications 15, 4000 (2024). [URL]		 Unconventional Magnetism Mediated by Spin-Phonon-Photon Coupling
75. Ultrastrong Exciton-Plasmon Couplings in WS2 Multilayers Synthesized with a Random Multi-Singular Metasurface at Room Temperature,
Tingting Wu, Chongwu Wang, Guangwei Hu, Zhixun Wang, Jiaxin Zhao, Zhe Wang, Ksenia Chaykun, Lin Liu, Mengxiao Chen, Dong Li, Song Zhu, Qihua Xiong, Zexiang Shen, Huajian Gao, Francisco J. Garcia-Vidal, Lei Wei, QiJie Wang, and Yu Luo,
Nature Communications 15, 3295 (2024). [URL]		 Ultrastrong Exciton-Plasmon Couplings in WS2 Multilayers Synthesized with a Random Multi-Singular Metasurface at Room Temperature
74. Lindblad Master Equation Capable of Describing Hybrid Quantum Systems in the Ultrastrong Coupling Regime,
Maksim Lednev, Francisco J. García-Vidal, and Johannes Feist,
Physical Review Letters 132, 106902 (2024). [URL]		 Lindblad Master Equation Capable of Describing Hybrid Quantum Systems in the Ultrastrong Coupling Regime
73. Light–Matter Interactions in Quantum Nanophotonic Devices,
Alejandro González-Tudela, Andreas Reiserer, Juan José García-Ripoll, and Francisco J. García-Vidal,
Nature Reviews Physics 6, 166 (2024). [URL]		 Light–Matter Interactions in Quantum Nanophotonic Devices
72. Magneto-Optics in a Van Der Waals Magnet Tuned by Self-Hybridized Polaritons,
Florian Dirnberger, Jiamin Quan, Rezlind Bushati, Geoffrey M. Diederich, Matthias Florian, Julian Klein, Kseniia Mosina, Zdenek Sofer, Xiaodong Xu, Akashdeep Kamra, Francisco J. García-Vidal, Andrea Alù, and Vinod M. Menon,
Nature 620, 533 (2023). [URL]		 Magneto-Optics in a Van Der Waals Magnet Tuned by Self-Hybridized Polaritons
71. Spoof Surface Plasmon Photonics,
Francisco J. Garcia-Vidal, Antonio I. Fernández-Domínguez, Luis Martin-Moreno, Hao Chi Zhang, Wenxuan Tang, Ruwen Peng, and Tie Jun Cui,
Reviews of Modern Physics 94, 025004 (2022). [URL]		 Spoof Surface Plasmon Photonics
70. Plasmon-Induced Thermal Tuning of Few-Exciton Strong Coupling in 2D Atomic Crystals,
Lin Liu, Landobasa Y. M. Tobing,Tingting Wu, Bo Qiang, Francisco J. Garcia-Vidal, Dao Hua Zhang, Qi Jie Wang, and Yu Luo,
Optica 8, 1416-1423 (2021). [URL]		 Plasmon-Induced Thermal Tuning of Few-Exciton Strong Coupling in 2D Atomic Crystals
69. Selective Isomer Emission Via Funneling of Exciton Polaritons,
Sitakanta Satapathy, Mandeep Khatoniar, Divya K. Parappuram, Bin Liu, George John, Johannes Feist, Francisco J. Garcia-Vidal, and Vinod M. Menon,
Science Advances 7, eabj0997 (2021). [URL]		 Selective Isomer Emission Via Funneling of Exciton Polaritons
68. Manipulating Matter by Strong Coupling to Vacuum Fields,
Francisco J. Garcia-Vidal, Cristiano Ciuti, and Thomas W. Ebbesen,
Science 373, eabd0336 (2021). [URL]		 Manipulating Matter by Strong Coupling to Vacuum Fields
67. Few-Mode Field Quantization of Arbitrary Electromagnetic Spectral Densities,
Ivan Medina, Francisco J. García-Vidal, Antonio I. Fernández-Domínguez, and Johannes Feist,
Phys. Rev. Lett. 126, 093601 (2021). [URL]		 Few-Mode Field Quantization of Arbitrary Electromagnetic Spectral Densities
66. Polaritonic Molecular Clock for All-Optical Ultrafast Imaging of Wavepacket Dynamics Without Probe Pulses,
R. E. F. Silva, Javier del Pino, Francisco J. García-Vidal, and Johannes Feist,
Nature Communications 11, 1423 (2020). [URL] 		 Polaritonic Molecular Clock for All-Optical Ultrafast Imaging of Wavepacket Dynamics Without Probe Pulses
65. Unveiling the Radiative Local Density of Optical States of a Plasmonic Nanocavity by STM,
Alberto Martín-Jiménez, Antonio I. Fernández-Domínguez, Koen Lauwaet, Daniel Granados, Rodolfo Miranda, Francisco J. García-Vidal, and Roberto Otero,
Nature Communications 11, 1021 (2020). [URL]		 Unveiling the Radiative Local Density of Optical States of a Plasmonic Nanocavity by STM
64. Coherent Steering of Nonlinear Chiral Valley Photons with a Synthetic Au–WS2 Metasurface,
Guangwei Hu, Xuanmiao Hong, Kai Wang, Jing Wu, He-Xiu Xu, Wenchao Zhao, Weiwei Liu, Shuang Zhang, Francisco Garcia-Vidal, Bing Wang, Peixiang Lu and Cheng-Wei Qiu,
Nature Photonics, DOI: 10.1038/s41566-019-0399-1, (2019). [URL]		 Coherent Steering of Nonlinear Chiral Valley Photons with a Synthetic Au–WS2 Metasurface
63. Tensor Network Simulation of Non-Markovian Dynamics in Organic Polaritons,
Javier del Pino, Florian A. Y. N. Schröder, Alex W. Chin, Johannes Feist, and Francisco J. Garcia-Vidal,
Physical Review Letters, 121, 227401 (2018). [URL]		 Tensor Network Simulation of Non-Markovian Dynamics in Organic Polaritons
62. Radiative Heat Transfer,
Juan Carlos Cuevas and Francisco J. Garcia-Vidal,
ACS Photonics, 5, 3896-3915 (2018). [URL]		 Radiative Heat Transfer
61. Polariton Hall Effect in Transition-Metal Dichalcogenides,
Á. Gutierrez-Rubio, L. Chirolli, L. Martín-Moreno, F. J. García-Vidal and F. Guinea,
Physical Review Letters, 121, 137402 (2018). [URL]		 Polariton Hall Effect in Transition-Metal Dichalcogenides
60. Long-Distance Operator for Energy Transfer,
F. J. Garcia-Vidal, and J. Feist,
Science 357, 1357 (2017). [URL]		 Long-Distance Operator for Energy Transfer
59. Many-molecule Reaction Triggered by a Single Photon in Polaritonic Chemistry,
J. Galego, F. J. Garcia-Vidal, and J. Feist,
Physical Review Letters 119, 136001 (2017). [URL] 		 Many-molecule Reaction Triggered by a Single Photon in Polaritonic Chemistry
58. Study of Radiative Heat Transfer in Ångström- and Nanometre-Sized Gaps,
L. Cui, W. Jeong, V. Fernández-Hurtado, J. Feist, F. J. García-Vidal, J. C. Cuevas, E. Meyhofer, and P. Reddy,
Nature Communications 8, 14479 (2017). [URL] 		 Study of Radiative Heat Transfer in Ångström- and Nanometre-Sized Gaps
57. Plasmonic Waveguide-Integrated Nanowire Laser,
E. Bermúdez-Ureña, G. Tutuncuoglu, J. Cuerda, C. L. C. Smith, J. Bravo-Abad, S. I. Bozhevolnyi, A. Fontcuberta i Morral, F. J. García-Vidal, and R. Quidant,
Nano Letters 17, 747 (2017). [URL]		 Plasmonic Waveguide-Integrated Nanowire Laser
56. Unrelenting Plasmons,
A. I. Fernández-Domínguez, F. J. García-Vidal, and L. Martín-Moreno,
Nature Photonics 11, 8 (2017). [URL] 		 Unrelenting Plasmons
55. Plasmon-Exciton-Polariton Lasing,
M. Ramezani, A. Halpin, A. I. Fernández-Domínguez, J. Feist, S. R.-K. Rodriguez, F. J. Garcia-Vidal, and J. Gómez-Rivas,
Optica 4, 31 (2017). [URL]		 Plasmon-Exciton-Polariton Lasing
54. Suppressing Photochemical Reactions with Quantized Light Fields,
J. Galego, F. J. Garcia-Vidal, and J. Feist,
Nature Communications 7, 13841 (2016). [URL] 		 Suppressing Photochemical Reactions with Quantized Light Fields
53. Uncoupled Dark States Can Inherit Polaritonic Properties,
C. Gonzalez-Ballestero, J. Feist, E. Gonzalo-Badia, E. Moreno, and F. J. Garcia-Vidal,
Physical Review Letters 117, 156402 (2016). [URL]		 Uncoupled Dark States Can Inherit Polaritonic Properties
52. Transformation Optics Approach to Plasmon-Exciton Strong Coupling in Nanocavities,
Rui-Qi Li, D. Hernangómez-Pérez, F. J. García-Vidal, and A. I. Fernández-Domínguez,
Physical Review Letters 117, 107401 (2016). [URL] 		 Transformation Optics Approach to Plasmon-Exciton Strong Coupling in Nanocavities
51. Nonequilibrium Plasmon Emission Drives Ultrafast Carrier Relaxation Dynamics in Photoexcited Graphene,
J. M. Hamm, A. F. Page, J. Bravo-Abad, F. J. Garcia-Vidal, and O. Hess,
Physical Review B 93, 041480(R) (2016). [URL]		 Nonequilibrium Plasmon Emission Drives Ultrafast Carrier Relaxation Dynamics in Photoexcited Graphene
50. Radiative Heat Transfer in the Extreme Near Field,
Kyeongtae Kim, Bai Song, Víctor Fernández-Hurtado, Woochul Lee, Wonho Jeong, Longji Cui, Dakotah Thompson, Johannes Feist, M. T. Homer Reid, Francisco J. García-Vidal, Juan Carlos Cuevas, Edgar Meyhofer, and Pramod Reddy,
Nature 528, 387 (2015). [URL] 		 Radiative Heat Transfer in the Extreme Near Field
49. Cavity-Induced Modifications of Molecular Structure in the Strong-Coupling Regime,
Javier Galego, Francisco J. Garcia-Vidal, and Johannes Feist,
Physical Review X 5, 041022 (2015). [URL] 		 Cavity-Induced Modifications of Molecular Structure in the Strong-Coupling Regime
48. Ultraefficient Coupling of a Quantum Emitter to the Tunable Guided Plasmons of a Carbon Nanotube,
Luis Martín-Moreno, F. Javier García de Abajo, and Francisco J. García-Vidal,
Physical Review Letters 115, 173601 (2015). [URL]		 Ultraefficient Coupling of a Quantum Emitter to the Tunable Guided Plasmons of a Carbon Nanotube
47. Harvesting Excitons Through Plasmonic Strong Coupling,
Carlos Gonzalez-Ballestero, Johannes Feist, Esteban Moreno, and Francisco J. Garcia-Vidal,
Physical Review B 92, 121402(R) (2015). [URL]		 Harvesting Excitons Through Plasmonic Strong Coupling
46. Coupling of Individual Quantum Emitters to Channel Plasmons,
Esteban Bermúdez-Ureña, Carlos Gonzalez-Ballestero, Michael Geiselmann, Renaud Marty, Ilya P. Radko, Tobias Holmgaard, Yury Alaverdyan, Esteban Moreno, Francisco J. García-Vidal, Sergey I. Bozhevolnyi, and Romain Quidant,
Nature Communications 6, 7883 (2015). [URL] 		 Coupling of Individual Quantum Emitters to Channel Plasmons
45. Extraordinary Exciton Conductance Induced by Strong Coupling,
Johannes Feist and Francisco J. Garcia-Vidal,
Physical Review Letters 114, 196402 (2015). [URL]		 Extraordinary Exciton Conductance Induced by Strong Coupling
44. Ultrahigh-Capacity Non-Periodic Photon Sieves Operating in Visible Light,
Kun Huang, Hong Liu, Francisco J. Garcia-Vidal, Minghui Hong, Boris Luk´yanchuk, Jinghua Teng, and Cheng-Wei Qiu,
Nature Communications 6, 7059 (2015). [URL]		 Ultrahigh-Capacity Non-Periodic Photon Sieves Operating in Visible Light
43. Enhancement of Near-Field Radiative Heat Transfer Using Polar Dielectric Thin Films,
Bai Song, Yashar Ganjeh, Seid Sadat, Dakotah Thompson, Anthony Fiorino, Víctor Fernández-Hurtado, Johannes Feist, Francisco J. Garcia-Vidal, Juan Carlos Cuevas, Pramod Reddy and Edgar Meyhofer,
Nature Nanotechnology 10, 253 (2015). [URL] 		 Enhancement of Near-Field Radiative Heat Transfer Using Polar Dielectric Thin Films
42. Theory of Lasing Action in Plasmonic Crystals,
J. Cuerda, F. Rüting, F. J. García-Vidal, and J. Bravo-Abad,
Physical Review B 91, 041118(R) (2015). [URL]		 Theory of Lasing Action in Plasmonic Crystals
41. Ab Initio Nanoplasmonics: The Impact of Atomic Structure,
Pu Zhang, Johannes Feist, Angel Rubio, Pablo García-González, and F. J. García-Vidal,
Physical Review B 90, 161407(R) (2014). [URL]		 Ab Initio Nanoplasmonics: The Impact of Atomic Structure
40. Quantum Emitters Near a Metal Nanoparticle: Strong Coupling and Quenching,
A. Delga, J. Feist, J. Bravo-Abad, and F. J. Garcia-Vidal,
Physical Review Letters 112, 253601 (2014). [URL]		 Quantum Emitters Near a Metal Nanoparticle: Strong Coupling and Quenching
39. Entanglement Detection in Coupled Particle Plasmons,
Javier del Pino, Johannes Feist, F. J. García-Vidal, and Juan Jose García-Ripoll,
Physical Review Letters 112, 216805 (2014). [URL]		 Entanglement Detection in Coupled Particle Plasmons
38. Magnetic Localized Surface Plasmons,
Paloma A. Huidobro, Xiaopeng Shen, J. Cuerda, Esteban Moreno, L. Martin-Moreno, F. J. Garcia-Vidal, Tie Jun Cui, and J. B. Pendry ,
Physical Review X 4, 021003 (2014). [URL] 		 Magnetic Localized Surface Plasmons
37. Thermalization and Cooling of Plasmon-Exciton Polaritons: Towards Quantum Condensation,
S. R. K. Rodriguez, J. Feist, M. A. Verschuuren, F. J. Garcia Vidal and J. Gómez Rivas,
Physical Review Letters, 111, 166802 (2013). [URL] 		 Thermalization and Cooling of Plasmon-Exciton Polaritons: Towards Quantum Condensation
36. Theory of Strong Coupling Between Quantum Emitters and Propagating Surface Plasmons,
A. González-Tudela, P. A. Huidobro, L. Martín-Moreno, C. Tejedor and F. J. García-Vidal,
Physical Review Letters, 110, 126801 (2013). [URL]		 Theory of Strong Coupling Between Quantum Emitters and Propagating Surface Plasmons
35. Graphene Supports the Propagation of Subwavelength Optical Solitons,
Maxim L. Nesterov, Jorge Bravo-Abad, Alexey Yu. Nikitin, Francisco J. García-Vidal and Luis Martín-Moreno,
Laser and Photonics Reviews, 7, 2 (2013). [URL]		 Graphene Supports the Propagation of Subwavelength Optical Solitons
34. Conformal Surface Plasmons Propagating on Ultrathin and Flexible Films,
Xiaopeng Shen, Tie Jun Cui, Diego Martín-Cano and Francisco J. García-Vidal,
PNAS, 110, 1 (2013). [URL] 		 Conformal Surface Plasmons Propagating on Ultrathin and Flexible Films
33. Strong Coupling of Surface Plasmon Polaritons in Monolayer Graphene Sheet Arrays,
Bing Wang, Xiang Zhang, Francisco J. García-Vidal, Xiaocong Yuan and Jinghua Teng,
Physical Review Letters, 109, 073901 (2012). [URL]		 Strong Coupling of Surface Plasmon Polaritons in Monolayer Graphene Sheet Arrays
32. Localized Spoof Plasmons Arise while Texturing Closed Surfaces,
Anders Pors, Esteban Moreno, L. Martín-Moreno, J. B. Pendry and F. J. García-Vidal,
Physical Review Letters, 108, 223905 (2012). [URL]		 Localized Spoof Plasmons Arise while Texturing Closed Surfaces
31. Transformation-Optics Description of Nonlocal Effects in Plasmonic Nanostructures,
A. I. Fernández-Domınguez, A. Wiener, F. J. García-Vidal, S. A. Maier and J. B. Pendry,
Physical Review Letters, 108, 106802 (2012). [URL] 		 Transformation-Optics Description of Nonlocal Effects in Plasmonic Nanostructures
30. Entanglement of Two Qubits Mediated by One-Dimensional Plasmonic Waveguides,
A. González-Tudela, D. Martín-Cano, E. Moreno, L. Martín-Moreno, C. Tejedor and F. J. García-Vidal,
Physical Review Letters, 106, 020501 (2011). [URL]		 Entanglement of Two Qubits Mediated by One-Dimensional Plasmonic Waveguides
29. Anomalous Band Formation in Arrays of Terahertz Nanoresonators,
Y. M. Bahk, H. R. Park, K. J. Ahn, H. S. Kim, Y. H. Ahn, Dai-Sik Kim, J. Bravo-Abad, L. Martín-Moreno and F. J. García-Vidal,
Physical Review Letters, 106, 013902 (2011). [URL]		 Anomalous Band Formation in Arrays of Terahertz Nanoresonators
28. A Holey-Structured Metamaterial for Acoustic Deep-Subwavelength Imaging,
J. Zhu, J. Christensen, J. Jung, L. Martín-Moreno, X. Yin, L. Fok, X. Zhang and F.J. García-Vidal,
Nature Physics, 7, 52-55 (2011). [URL]		 A Holey-Structured Metamaterial for Acoustic Deep-Subwavelength Imaging
27. Surface Electromagnetic Field Radiated by a Subwavelength Hole in a Metal Film,
A. Yu. Nikitin, F.J. García-Vidal and L. Martín-Moreno,
Physical Review Letters, 105, 073902 (2010). [URL] 		 Surface Electromagnetic Field Radiated by a Subwavelength Hole in a Metal Film
26. Transformation Optics for Plasmonics,
Paloma A. Huidobro, Maxim L. Nesterov, Luis Martín-Moreno and Francisco J. Garcıa-Vidal,
NanoLetters, 10, 1985-1990 (2010). [URL]		 Transformation Optics for Plasmonics
25. Light Passing Through Subwavelength Apertures,
F. J. García-Vidal, L. Martín-Moreno, T. W. Ebbesen and L. Kuipers,
Reviews of Modern Physics, 82, 729-787 (2010). [URL]		 Light Passing Through Subwavelength Apertures
24. Domino Plasmons for Subwavelength Terahertz Circuitry,
D. Martín-Cano, M. L. Nesterov, A. I. Fernandez-Domínguez, F. J. García-Vidal, L. Martín-Moreno and Esteban Moreno,
Optics Express, 18, 2 (2010). [URL]		 Domino Plasmons for Subwavelength Terahertz Circuitry
23. Theory of Negative-Refractive-Index Response of Double-Fishnet Structures,
J. Christensen, P. A. Huidobro, L. Martín-Moreno and F. J. García-Vidal,
Physical Review Letters, 101, 103902 (2008). [URL]		 Theory of Negative-Refractive-Index Response of Double-Fishnet Structures
22. Theory of Resonant Acoustic Transmission Through Subwavelength Apertures,
J. Christensen, L. Martín-Moreno, and F. J. García-Vidal,
Physical Review Letters, 101, 014301 (2008). [URL] 		 Theory of Resonant Acoustic Transmission Through Subwavelength Apertures
21. Optical Control Over Surface-Plasmon-Polariton-Assisted THz Transmission Through a Slit Aperture,
E. Hendry, F. J. García-Vidal, L. Martín-Moreno, J. Gómez Rivas, M. Bonn, A. P. Hibbins, and M. J. Lockyear,
Physical Review Letters, 100, 123901 (2008). [URL]		 Optical Control Over Surface-Plasmon-Polariton-Assisted THz Transmission Through a Slit Aperture
20. Highly Confined Guiding of Terahertz Surface Plasmon Polaritons on Structured Metal Surfaces,
C. R. Williams, S. R. Andrews, S. A. Maier, A. I. Fernández-Domínguez, L. Martín Moreno and F. J., García-Vidal,
Nature Photonics, 2, 175-179 (2008). [URL]		 Highly Confined Guiding of Terahertz Surface Plasmon Polaritons on Structured Metal Surfaces
19. Guiding and Focusing of Electromagnetic Fields with Wedge Plasmon Polaritons,
Esteban Moreno, Sergio G. Rodrigo, Sergey I. Bozhevolnyi, L. Martín-Moreno, and F. J. García-Vidal,
Physical Review Letters, 100, 023901 (2008). [URL]		 Guiding and Focusing of Electromagnetic Fields with Wedge Plasmon Polaritons
18. Collimation of Sound Assisted by Acoustic Surface Waves,
J. Christensen , A. I. Fernández-Domínguez, F. de León-Pérez, L. Martín-Moreno, and F. J. García-Vidal,
Nature Physics, 3 851-852 (2007). [URL]		 Collimation of Sound Assisted by Acoustic Surface Waves
17. Efficient Unidirectional Nanoslit Couplers for Surface Plasmons,
F. López-Tejeira, Sergio G. Rodrigo, L. Martín-Moreno, F. J. García-Vidal, E. Devaux, T. W. Ebbesen, J. R. Krenn, I. P. Radko, S. I. Bozhevolnyi, M. U. González, J. C. Weber and A. Dereux,
Nature Physics, 3, 324-328 (2007). [URL]		 Efficient Unidirectional Nanoslit Couplers for Surface Plasmons
16. Terahertz Surface Plasmon-Polariton Propagation and Focusing on Periodically Corrugated Metal Wires,
Stefan A. Maier, Steve R. Andrews, L. Martín-Moreno and F. J. García-Vidal,
Physical Review Letters, 97, 176805 (2006). [URL]		 Terahertz Surface Plasmon-Polariton Propagation and Focusing on Periodically Corrugated Metal Wires
15. Transmission of Light Through a Single Rectangular Hole,
F. J. García-Vidal, Esteban Moreno, J. A. Porto and L. Martín-Moreno,
Physical Review Letters, 95, 103901 (2005). [URL]		 Transmission of Light Through a Single Rectangular Hole
14. Surfaces with Holes in Them: New Plasmonic Metamaterials,
F. J. García-Vidal, L. Martín-Moreno and J. B. Pendry,
Journal of Optics A: Pure and Applied Optics, 7, S97-S101 (2005). [URL] 		 Surfaces with Holes in Them: New Plasmonic Metamaterials
13. Enhanced Millimeter-Wave Transmission Through Subwavelength Hole Arrays,
M. Beruete, M. Sorolla, I. Campillo, J. S. Dolado, L. Martín-Moreno, J. Bravo-Abad and F. J. García-Vidal,
Optics Letters, 29, 21 (2004). [URL]		 Enhanced Millimeter-Wave Transmission Through Subwavelength Hole Arrays
12. Mimicking Surface Plasmons with Structured Surfaces,
J. B. Pendry, L. Martín-Moreno and F. J. García-Vidal,
Science, 305, 847-848 (2004). [URL]		 Mimicking Surface Plasmons with Structured Surfaces
11. Enhanced Transmission and Beaming of Light Via Photonic Crystal Surface Modes,
Esteban Moreno, F. J. García-Vidal and L. Martín-Moreno,
Physical Review B, 69, 121402(R) (2004). [URL] 		 Enhanced Transmission and Beaming of Light Via Photonic Crystal Surface Modes
10. Focusing Light With a Single Subwavelength Aperture Flanked by Surface Corrugations,
F. J. García-Vidal and L. Martín-Moreno, H. J. Lezec and T. W. Ebbesen,
Applied Physics Letters, 83, 22 (2003). [URL]		 Focusing Light With a Single Subwavelength Aperture Flanked by Surface Corrugations
9. Multiple Paths to Enhance Optical Transmission Through a Single Subwavelength Slit,
F. J. García-Vidal, H. J. Lezec, T. W. Ebbesen and L. Martín-Moreno,
Physical Review Letters, 90, 21 (2003). [URL]		 Multiple Paths to Enhance Optical Transmission Through a Single Subwavelength Slit
8. Theory of Highly Directional Emission from a Single Subwavelength Aperture Surrounded by Surface Corrugations,
L. Martín-Moreno, F. J. García-Vidal, H. J. Lezec, A. Degiron and T. W. Ebbesen,
Physical Review Letters, 90, 16 (2003). [URL]		 Theory of Highly Directional Emission from a Single Subwavelength Aperture Surrounded by Surface Corrugations
7. Transmission and Focusing of Light in One-Dimensional Periodically Nanostructured Metals,
F. J. García-Vidal and L. Martín-Moreno,
Physical Review B, 66, 155412 (2002). [URL]		 Transmission and Focusing of Light in One-Dimensional Periodically Nanostructured Metals
6. Beaming Light From a Subwavelength Aperture,
H. J. Lezec, A. Degiron, E. Devaux, R. A. Linke, L. Martín-Moreno, F. J. García-Vidal and T. W. Ebbesen,
Science, 297, 820 (2002). [URL]		 Beaming Light From a Subwavelength Aperture
5. Evanescently Coupled Resonance in Surface Plasmon Enhanced Transmission,
A. Krishnan, T. Thio, T.J. Kim, H.J. Lezec, T.W. Ebbesen, P. A. Wolff, J. Pendry, L. Martín-Moreno and F. J. García-Vidal,
Optics Communications, 200, 1-7 (2001). [URL] 		 Evanescently Coupled Resonance in Surface Plasmon Enhanced Transmission
4. Theory of Extraordinary Optical Transmission Through Subwavelength Hole Arrays,
L. Martín-Moreno, F. J. García-Vidal, H. J. Lezec, K. M. Pellerin, T. Thio, J. B. Pendry and T. W. Ebbesen,
Physical Review Letters, 86, 6 (2001). [URL]		 Theory of Extraordinary Optical Transmission Through Subwavelength Hole Arrays
3. Transmission Resonances on Metallic Gratings with Very Narrow Slits,
J. A. Porto, F. J. García-Vidal and J. B. Pendry,
Physical Review Letters, 83, 14 (1999). [URL] 		 Transmission Resonances on Metallic Gratings with Very Narrow Slits
2. Effective Medium Theory of the Optical Properties of Aligned Carbon Nanotubes,
F. J. García-Vidal, J. M. Pitarke and J. B. Pendry,
Physical Review Letters, 78, 22 (1997). [URL] 		 Effective Medium Theory of the Optical Properties of Aligned Carbon Nanotubes
1. Collective Theory for Surface Enhanced Raman Scattering,
F. J. García-Vidal and J. B. Pendry,
Physical Review Letters, 77, 6 (1996). [URL]		 Collective Theory for Surface Enhanced Raman Scattering
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