2025
1. Raúl Ortiz, Alejandro
Martínez, Carlos Mas Arabí, Carles Milián, “Dual-mode
phonon dynamics and lasing in optomechanical cavities,” Phys. Rev. Research 7, 043109 (2025). (link)
2. Annabella la Grasta, María Isabel Gómez-Gómez, Amadeu
Griol, Estefanía Gómez, Alejandro Martínez, and Francesco Dell’Olio, “Multiplexed
Microphotonic Ring Resonator Platform for
Simultaneous Detection of SARS-CoV-2 Spike Protein and Respiratory Syncytial
Virus-F Protein,” IEEE Sensors J. 25(19), 36064 (2025). (link)
3. Marta Nadal, Léna Guitou, Iago Diez, Juan
Hurtado, Alejandro Martínez, Iago Grobas, Javier
Buceta, “E. coli filament buckling modulates Min patterning and cell division,” Nature Comm. 16:8193
(2025). (link)
4.
J. Redolat, D.
Arenas-Ortega, A. Barreda, A. Griol, E. Pinilla-Cienfuegos, and A. Martínez,
“Polarization-insensitive integration of nanoparticle-on-a-slit cavities with
dielectric waveguides for on-chip surface enhanced Raman spectroscopy,” npj Nanophoton. 2, 17 (2025). (link)
5.
A. la Grasta, M.I.
Gómez-Gómez, A. Griol, E. Gómez, M. De Carlo, V.M.N. Passaro, A. Martínez, F.
Dell’Olio, “Integrated microphotonic platform for
highly sensitive virus detection,” Sensors and Actuators Reports
9,100320 (2025). (link)
6. Alberto Grau, Laura Mercadé, Raúl Ortiz, and Alejandro
Martínez, "Bricks-on-pedestals silicon optomechanical cavity: a mass
sensor for nanoparticles detection," Opt. Express 33, 1458-1465
(2025) (link)
7.
V. Fito, R. Ortiz, M.
Morant, L. Mercadé, A. Martínez and R. Llorente, "Performance Evaluation
of Dual-Drive Mach-Zehnder Modulator and Optomechanical Crystal Cavity Comb
Generation for All-Optical Band Conversion in 5G-Advanced Cellular Systems,"
IEEE Photonics Journal, vol. 17, no. 1, pp. 1-9 (2025). (link).
2024
8. Luis M.
Máñez-Espina and Alejandro Martínez, “Integrated subwavelength bimodal interferometer
using a multilayer hyperbolic metamaterial,” Opt.
Lett. 49, 6437-6440 (2024). (link)
9. David
Alonso-Tomás, Guillermo Arregui, Laura Mercadé, Alejandro Martínez, Amadeu
Griol, Néstor E. Capuj, and Daniel Navarro-Urrios, “Cascaded
injection locking of optomechanical crystal oscillators,” APL
Photonics 9 (11): 116108 (2024). (link)
10. Josep
Martínez-Romeu, Iago Diez, Sebastian Golat, Francisco J Rodríguez-Fortuño,
Alejandro Martínez, “Longitudinal chiral forces in photonic integrated waveguides to separate particles
with realistically small chirality,” Nanophotonics
13 (23), 4275-4289 (2024). (link).
11. Paula Mouriño,
Laura Mercadé, Miguel Sinusía Lozano, Raquel Resta, Amadeu Griol, Karim Ben
Saddik, Enrique Barrigón, Sergio Fernández-Garrido, Basilio Javier García,
Alejandro Martínez, Víctor J. Gómez, “Optomechanical Cavities Based on
Epitaxial GaP on Nominally (001)‐Oriented
Si”, Advanced Material Technologies, 9 (24), 2400525 (2024). (link).
12. Vicente Fito, Raúl Ortiz, Maria Morant, Laura Mercadé,
Roberto Llorente, Alejandro Martínez, “Experimental Evaluation of All-Optical
Up-and Down-Conversion of 3GPP 5G NR Signals using an Optomechanical Crystal
Cavity Frequency Comb,” J. Lightwave Technol., 42(19), pp. 6825 – 6831
(2024). (link).
13. Sebastian Golat, Jack J. Kingsley-Smith, Iago Diez,
Josep Martinez-Romeu, Alejandro Martínez, and Francisco J. Rodríguez-Fortuño,
“Optical dipolar chiral sorting forces and their manifestation in evanescent
waves and nanofibers,” Phys. Rev. Research 6, 023079 (2024). (link)
14. Javier Redolat, María Camarena-Pérez, Amadeu Griol,
Miguel Sinusia Lozano, Maria Isabel Gómez-Gómez, J. Enrique Vázquez-Lozano,
Ermanno Miele, Jeremy J. Baumberg, Alejandro Martínez, and Elena
Pinilla-Cienfuegos, “Synthesis and Raman Detection of 5-Amino-2-mercaptobenzimidazole
Self-Assembled Monolayers in Nanoparticle-on-a-Mirror Plasmonic Cavity Driven
by Dielectric Waveguides,” Nano Lett. 24 (12), 3670–3677 (2024). (link)
15. Josep
Martínez-Romeu, Iago Diez, Sebastian Golat, Francisco J. Rodríguez-Fortuño, and
Alejandro Martínez, "Chiral forces
in longitudinally invariant
dielectric photonic waveguides," Photon.
Res. 12, 431-443 (2024). (link)
16. David
Alonso-Tomás, Nestor E. Capuj, Laura Mercadé, Amadeu Griol, Alejandro Martínez,
Daniel Navarro-Urrios, “Unidirectional Synchronization of Silicon Optomechanical Nanobeam Oscillators by External Feedback,” ACS Photon. 11, 1, 7–12 (2024). (link).
17. Raúl Ortiz, Laura Mercadé, Alberto Grau, Daniel
Navarro-Urrios, and Alejandro Martínez, “Influence of thermal effects on the
optomechanical coupling rate in acousto-optic cavities,” Phys. Rev. A 109, 023504
(2024). (link)
2023
18. Gaëtan Lévêque, Yan Pennec, Pascal Szriftgiser, Alberto
Amo, Alejandro Martínez, “Scattering-matrix approach for a quantitative
evaluation of the topological protection in valley photonic crystals,” Phys.
Rev. A 108, 043505 (2023). (link)
Arxiv pre-print at: https://arxiv.org/abs/2301.10565
19. Miguel Sinusia Lozano, Ignacio Bernat-Montoya, Todora
Ivanova Angelova, Alberto Boscá Mojen,
Francisco J. Díaz-Fernández, Miroslavna Kovylina, Alejandro Martínez, Elena
Pinilla Cienfuegos and Víctor J. Gómez, “Plasma-Induced Surface Modification of
Sapphire and Its Influence on Graphene Grown by Plasma-Enhanced Chemical Vapour
Deposition,” Nanomaterials 13, 1952 (2023). (link)
20. Lucía
Castelló-Pedrero, María I. Gómez-Gómez, David Zurita, Jaime García-Rupérez,
Amadeu Griol, and Alejandro Martínez, “1310 nm TM grating
couplers to operate silicon nitride ring resonator biosensors,” Results in
Optics 11, 100418 (2023). (link)
21. Evelyn Díaz-Escobar, Angela I. Barreda, Laura Mercadé,
Amadeu Griol, Alessandro Pitanti, Alejandro Martínez, “Light Guidance Aided by
the Toroidal Dipole and the Magnetic Quadrupole in Silicon Slotted-Disk
Chains,” ACS Photon. 10, 707–714 (2023). (link)
22. L. Mercadé, R. Ortiz, A. Grau, A. Griol, and A.
Martínez, “Engineering multiple GHz mechanical
modes in optomechanical crystal cavities,” Phys. Rev. Appl. 19, 014043
(2023). (link)
ArXiv pre-print on: https://doi.org/10.48550/arXiv.2208.00890
23. Javier Redolat, María Camarena-Pérez, Amadeu Griol,
Miroslavna Kovylina, Angelos Xomalis, Jeremy J. Baumberg, and Alejandro
Martínez, and Elena Pinilla-Cienfuegos, “Accurate Transfer of Individual
Nanoparticles onto Single Photonic Nanostructures,” ACS Appl.
Mater. Interfaces, 15, 2, 3558–3565 (2023) (link).
2022
24. Evelyn Díaz-Escobar, Angela I. Barreda, Amadeu Griol,
Alejandro Martínez, “Experimental observation of higher-order anapoles in
individual silicon disks under in-plane illumination,” Appl. Phys. Lett.
121, 201105 (2022). (link) Arxiv pre-print: arXiv:2207.06175
25. Angela Barreda, Laura Mercadé, Mario Zapata-Herrera,
Javier Aizpurua, Alejandro Martínez, “Hybrid photonic-plasmonic cavity design
for very large Purcell factors at telecom wavelengths,” Phys. Rev. Appl.
18, 044066 (2022). (link).
Arxiv pre-print: arXiv:2204.05241
26. Daniel Navarro-Urrios, Guillermo Arregui, Martín F.
Colombano, Juliana Jaramillo-Fernández, Alessandro Pitanti, Amadeu Griol, Laura
Mercadé, Alejandro Martínez, and Néstor E. Capuj, “Giant injection-locking
bandwidth of a self-pulsing limit-cycle in an optomechanical cavity,” Commun
Phys 5, 330 (2022). (link)
27. E. Díaz-Escobar, L. Mercadé, Á. I. Barreda, J.
García-Rupérez, and A. Martínez, “Photonic Bandgap Closure and Metamaterial
Behavior in 1D Periodic Chains of High-Index Nanobricks,”
Photonics 9(10), p. 691 (2022). (link).
28. Laura Mercadé, Eloy Rico, Jesús Ruiz Garnica, Juan
Carlos Gómez, Amadeu Griol, Miguel A. Piqueras, Alejandro Martínez, and Vanessa
C. Duarte, “Testing Optomechanical Microwave Oscillators for SATCOM
Application,” J. Lightwave Technol. 40, 4539-4547 (2022). (link)
29. S. Zanotto, G. Conte, L. C. Bellieres, A. Griol, D.
Navarro-Urrios, A. Tredicucci, A. Martínez, A. Pitanti, “Optomechanical
Modulation Spectroscopy of Bound States in the Continuum in a Dielectric
Metasurface,” Phys. Rev. Appl. 17, 044033 (2022). (link)
30. D. Navarro-Urrios, M. F. Colombano, G. Arregui, G.
Madiot, A. Pitanti, A. Griol, T. Makkonen, J. Ahopelto, C. M. Sotomayor-Torres
and A. Martínez, “Room-temperature silicon platform for GHz-frequency
nano-electro-opto-mechanical systems,” ACS Photon. 9 (2), 413-419
(2022). (link)
Arxiv pre-print on https://arxiv.org/abs/2110.09178
31. J. Enrique Vázquez-Lozano, Jeremy J. Baumberg,
Alejandro Martínez “Enhanced excitation and readout of plasmonic cavity modes
in NPoM via SiN waveguides for on-chip SERS,” Opt.
Express 30, 4553-4563 (2022). (link)
32. Jeremie Maire,
Emigdio Chavez-Angel, Guillermo Arregui, Martin F.
Colombano, Nestor E. Capuj, Amadeu Griol, Alejandro Martinez, Daniel
Navarro-Urrios, Jouni Ahopelto, Clivia M. Sotomayor-Torres, “Thermal properties of nanocrystalline silicon nanobeams,” Adv. Funct. Mater. 32, 2105767
(2022). (link). Arxiv pre-print at https://arxiv.org/abs/2106.03201
33. Laura Mercadé and Alejandro Martínez, “Optomechanical
microwave oscillators”, Reviews of Electromagnetics, I (2022). (link).
2021
34. Wen Chen, Philippe Roelli, Huatian
Hu, Sachin Verlekar, Sakthi Priya Amirtharaj, Angela I. Barreda, Tobias J.
Kippenberg, Miroslavna Kovylina, Ewold Verhagen, Alejandro Martínez, Christophe
Galland, “Continuous-Wave Frequency Upconversion with a Molecular
Optomechanical Nanocavity,” Science 374, 1264-1267 (2021). (link) Arxiv preprint at https://arxiv.org/abs/2107.03033
35. Angelos Xomalis, Xuezhi
Zheng, Rohit Chikkaraddy, Zsuzsanna Koczor-Benda,
Ermanno Miele, Edina Rosta, Guy A E Vandenbosch,
Alejandro Martínez, Jeremy J Baumberg, “Detecting mid-infrared light by
molecular frequency upconversion with dual-wavelength hybrid nanoantennas,” Science 374, 1268-1271 (2021). (link). Arxiv preprint at https://arxiv.org/abs/2107.02507.
36. Lucía Castelló-Pedrero, María I. Gómez-Gómez, Jaime
García-Rupérez, Amadeu Griol, and Alejandro Martínez, “Performance improvement
of a silicon nitride ring resonator biosensor operated in the TM mode at 1310
nm,” Biomed. Opt. Express 12, 7244-7260 (2021). (link)
37. E. Díaz-Escobar, T. Bauer, E. Pinilla-Cienfuegos, A.
I. Barreda, A. Griol, L. Kuipers, and A. Martínez, “Radiationless
anapole states in on-chip photonics,” Light: Science & Applications 10,
204 (2021). (link).
38. Laura Mercadé, Maria Morant, Amadeu Griol, Roberto
Llorente, Alejandro Martínez, “Photonic frequency conversion of OFDM microwave
signals in a wavelength-scale optomechanical cavity,” Lasers & Photon.
Rev. 2100175 (2021). (link)
39. Angela I. Barreda, Mario Zapata-Herrera, Isabelle
Palstra, Laura Mercadé, Javier Aizpurua, A. Femius Koenderink, Alejandro
Martínez, “Hybrid Photonic-Plasmonic Cavities based on the
Nanoparticle-on-a-Mirror Configuration,” Photon. Res. 9, 2398-2419
(2021). (link) Arxiv preprint at https://arxiv.org/abs/2106.01931
40. Laura Mercadé, Karl Pelka, Roel Burgwal, André Xuereb,
Alejandro Martínez, Ewold Verhagen, “Floquet phonon
lasing in multimode optomechanical systems,” Phys. Rev. Lett., 127,
073601 (2021). (link)
Arxiv preprint at https://arxiv.org/abs/2101.10788
41. Angelos Xomalis, Xuezhi
Zheng, Angela Demetriadou, Alejandro Martínez, Rohit Chikkaraddy, and Jeremy J.
Baumberg, “Interfering Plasmons in Coupled Nanoresonators
to Boost Light Localization and SERS,” Nano Lett. 21, 2512–2518 (2021).
(link)
42. G. Arregui, M. F. Colombano, J. Maire, A. Pitanti, N.
E. Capuj, A. Griol, A. Martínez, C. M. Sotomayor Torres, and D. Navarro Urrios,
“Injection locking in an optomechanical coherent phonon source,” Nanophotonics
10, 1319–1327 (2021). (link)
Arxiv preprint at arXiv:2009.09012.
43. Laura Mercadé, Alexander V. Korovin, Yan Pennec,
Bahram Djafari Rouhani, Alejandro Martínez, “Vertical engineering for large stimulated Brillouin scattering in unreleased
silicon-based waveguides,” Phys. Rev. Appl. 15, 034021 (2021). (link)
Arxiv preprint at https://arxiv.org/abs/2011.02186. .
2020
44. Laura Mercadé, Ángela Barreda, and Alejandro Martínez,
“Dispersive optomechanics of supercavity modes in
high-index disks,” Opt. Lett. 45, 5238-5241 (2020). (link).
45. Laura Mercadé, Leopoldo L. Martín, Amadeu Griol,
Daniel Navarro-Urrios, Alejandro Martínez, “Microwave generation and frequency
comb in a silicon optomechanical cavity with a full phononic bandgap,” Nanophotonics
9, 3535 (2020). (link). Arxiv pre-print at https://arxiv.org/abs/1912.06692.
46. A. Pitanti, T. Makkonen, M. F. Colombano, S. Zanotto,
L. Vicarelli, A. Griol, D. Navarro-Urrios, C. Sotomayor-Torres, A. Martinez, J.
Ahopelto, “High frequency mechanical excitation of a silicon nanostring with piezoelectric aluminum nitride layers,” Phys.
Rev. Appl. 14, 014054 –(2020). (link)
Arxiv pre-print at arXiv:2003.11977
47. J. Enrique Vázquez-Lozano, Alejandro Martínez,
“Towards Chiral Sensing and Spectroscopy Enabled by All-Dielectric Integrated
Photonic Waveguides,” Laser & Photon. Rev. 1900422 (2020). (link)
Arxiv pre-print at arXiv:1911.11106.
48. D.
Navarro-Urrios, M. F. Colombano, J. Maire, E. Chávez-Ángel, G. Arregui, N. E.
Capuj, A. Devos, A. Griol, L. Bellieres, A. Martínez,
K. Grigoras, T. Häkkinen, J. Saarilahti,
T. Makkonen, C. M. Sotomayor-Torres, and J. Ahopelto. "Properties of nanocrystalline silicon probed by
optomechanics", Nanophotonics 9, 4819-4829 (2020). (link)
2019
49. J. Enrique Vázquez-Lozano, Alejandro Martínez,
“Near-Field Unidirectional Excitation … and Beyond,” Optics and Photonics
News, Year in Optics, p. 58 (2019). (link)
50. J. Enrique Vázquez-Lozano, Alejandro Martínez,
Francisco J. Rodríguez-Fortuño, “Near-Field Directionality Beyond the Dipole
Approximation: Electric Quadrupole and Higher-Order Multipole Angular Spectra,”
Phys. Rev. Applied 12, 024065 (2019).
(link)
Arxiv pre-print at https://arxiv.org/abs/1905.03207
51. M. F. Colombano, G. Arregui, N. E. Capuj, A. Pitanti,
J. Maire, A. Griol, B. Garrido, A. Martinez, C. M. Sotomayor-Torres, D.
Navarro-Urrios, “Synchronization of optomechanical cavities by mechanical
interaction,” Phys. Rev. Lett., 123,
017402 (2019). (link).
Arxiv pre-print at https://arxiv.org/abs/1810.06085.
52. Javier Losada, Ali Raza, Stéphane Clemmen, Aina
Serrano, Amadeu Griol, Roel Baets and Alejandro
Martínez, “SERS detection via individual bowtie nanoantennas
integrated in Si3N4 waveguides,” IEEE J. Selected Top. Quantum Electron. 25(3), 4600806 (2019). (link).
2018
53. Alejandro Martínez, “Polarimetry enabled by nanophotonics,” Science
362, 750 (2018). (Links: Summary,
Reprint,
Full
Text)
54. J. Enrique Vázquez-Lozano, Alejandro Martínez,
“Generalizing Optical Chirality to an Arbitrary Medium,” Optics and Photonics News, Year in Optics, p. 29 (2018). (link)
55. J.
Maire, N. E. Capuj, M. F. Colombano, A. Griol, A. Martinez, C. M.
Sotomayor-Torres, D. Navarro-Urrios, “Optical modulation of coherent phonon
emission in optomechanical cavities,” APL
Photonics 3, 126102 (2018). (link)
56. G. Armelles, L. Bergamini,
N. Zabala, F García, M. L. Dotor, L. Torné, R. Alvaro, A. Griol, A. Martínez, J Aizpurua, and A
Cebollada, “Metamaterial Platforms for Spintronic Modulation of Mid-Infrared
Response under Very Weak Magnetic Field,” ACS
Photon. 5, 3956–3961 (2018). (link)
57. J. Enrique
Vázquez-Lozano, Alejandro Martínez, “Optical Chirality in Dispersive and Lossy
Media,” Phys. Rev. Lett. 121, 043901
(2018). Highlighted as Editors´
Suggestion. (link)
58. A. Espinosa-Soria , E.
Pinilla-Cienfuegos, F. J. Díaz-Fernández, A. Griol, J. Martí, and A. Martínez,
“Coherent Control of a Plasmonic Nanoantenna Integrated on a Silicon Chip,” ACS Photon. 5, 2712−2717 (2018). (link)
59. D. Navarro-Urrios, N.E. Capuj, J. Maire,
M. Colombano, J. Jaramillo-Fernandez, E. Chavez-Angel,
L. L. Martin, L. Mercade, A. Griol, A. Martinez, C. M. Sotomayor-Torres, J.
Ahopelto, “Nanocrystalline silicon
optomechanical cavities,” Opt. Express 26, 9829-9839 (2018).
60. J. Enrique Vázquez-Lozano, Alejandro Martínez,
“Classical Emergence of Intrinsic Spin-Orbit Interaction of Light at the
Nanoscale,” Phys. Rev. A 97, 033804
(2018). (link)
2017
61. Alba Espinosa-Soria, Francisco J. Rodríguez-Fortuño,
Amadeu Griol, and Alejandro Martínez, “On-chip optimal Stokes nanopolarimetry based on spin-orbit interaction of light,” Nano Lett. 17, 3139-3144 (2017). (link)
62. D. Navarro-Urrios, N. E. Capuj, M. F. Colombano, P. D.
Garcia, M. Sledzinska, F. Alzina, A. Griol, A.
Martinez, C. M. Sotomayor-Torres, “Nonlinear dynamics and chaos in an
optomechanical beam,” Nature Commun.
8, 14965 (2017), Arxiv pre-print 1609.04390. (link)
63. Rubén Ortuño, Mario Cortijo and Alejandro Martínez,
“Fano resonances and electromagnetically induced transparency in silicon
waveguides loaded with plasmonic nanoresonators,” J. Opt. 19, 025003
(2017). (link)
2016
64. B. Orazbayev, M. Beruete, A.
Martínez, and C. García-Meca, “Diffusive-light invisibility cloak for transient
illumination,” Phys. Rev. A 94,
063850 (2016). (link)
65. F. J. Rodriguez-Fortuño, A. Espinosa-Soria, and A.
Martinez, “Exploiting metamaterials, plasmonics and nanoantennas concepts in silicon Photonics,” Topical Review
in J. Opt. 18, 123001 (2016). (link)
66. Alba Espinosa-Soria, Amadeu Griol and Alejandro
Martínez, “Experimental measurement of plasmonic nanostructures embedded in
silicon waveguide gaps,” Opt. Express
24, 9592-9601 (2016). (link)
67. Alba Espinosa-Soria and Alejandro Martínez,
“Transverse spin and spin-orbit coupling in silicon waveguides,” IEEE Photon. Technol. Lett. 28(14),
1561-1564 (2016). (link)
2015
68. F. J. Rodríguez-Fortuño, N. Engheta, A. Martínez and
A. V. Zayats, “Lateral forces on circularly polarizable particles near a
surface,” Nature Comm. 6, 8799
(2015). (link).
Erratum in (link).
69. D. Navarro-Urrios, N. E. Capuj, J. Gomis-Bresco, F. Alzina, A. Pitanti, A. Griol, A. Martínez &
C. M. Sotomayor Torres, “A self-stabilized coherent phonon source driven by
optical forces,” Sci. Rep. 5, 15733
(2015). (link)
70. A. Martínez, “Plasmonic metamaterials: a new paradigm
for optical security,” invited paper in Keesing Journal of
Documents & Identity, 48, 18-23 (2015).
2014
71. Y. Pennec, V. Laude, N. Papanikolaou, B.
Djafari-Rouhani, M. Oudich, S. El Jallal, J. C. Beugnot, J. M. Escalante, and A. Martínez, “Modeling
light-sound interaction in nanoscale cavities and waveguides,” Nanophotonics 3(6), 413-440 (2014). (link)
72. D. Navarro-Urrios, J. Gomis-Bresco,
S. El-Jallal, M. Oudich, A. Pitanti, N. Capuj, A.
Tredicucci, F. Alzina, A. Griol, Y. Pennec, B. Djafari-Rouhani, A. Martínez,
and C. M. Sotomayor Torres, “Dynamical back-action at 5.5 GHz in a corrugated
optomechanical beam,” AIP Advances 4,
124601 (2014). (link)
73. F. J. Rodríguez-Fortuño, I. Barber-Sanz, D. Puerto, A.
Griol, A. Martinez, “Resolving light handedness with an on-chip silicon microdisk”, ACS
Photonics 1(9), 762–767 (2014). (link)
74. J. Gomis-Bresco, D.
Navarro-Urrios, M. Oudich, S. El-Jallal, A. Griol, D.
Puerto, E. Chavez, Y. Pennec, B. Djafari-Rouhani, F. Alzina, A. Martínez, and
C. M. Sotomayor-Torres, “A one-dimensional optomechanical crystal with a
complete phononic band gap”, Nature Comm. 5, 4452 (2014). (link) . Highlighted in Nature
Photon. 8, 746 (2014). (link)
75. D. Navarro-Urrios, J. Gomis-Bresco,
N. E. Capuj, F. Alzina, A. Griol, D. Puerto, A. Martínez, and C. M.
Sotomayor-Torres, “Optical and mechanical mode tuning in an optomechanical
crystal with light-induced
thermal effects”, J. Appl. Phys. 116,
093506 (2014). (link)
76. C. García-Meca, S. Carloni, C. Barceló, G. Jannes, J.
Sánchez-Dehesa, and A. Martínez, “Analogue transformation acoustics and the
compression of spacetime,” Photon. Nanostruct. Fundam. Appl. 12(4), 312–318 (2014). (link)
77. R. Ortuño, C. García-Meca and A. Martínez, “Terahertz
Metamaterials on Flexible Polypropylene Substrate,” Plasmonics 9 (5), 1143-1147
(2014).
78. C. García-Meca, S. Carloni, C. Barceló, G. Jannes, J.
Sánchez-Dehesa, and A. Martínez, “Transformational acoustic metamaterials based
on pressure gradients,” Phys. Rev. B
90, 024310 (2014). (link)
79. V. Torres, N. Sánchez, D. Etayo,
R. Ortuño, M. Navarro-Cía, A. Martínez, M. Beruete
“Compact Dual-Band Terahertz Quarter-Wave Plate Metasurface,” IEEE Photon. Technol. Lett. 26(16), 1679
- 1682 (2014). (link)
80. M. Oudich, S. El-Jallal, Y.
Pennec, B. Djafari-Rouhani, J. Gomis-Bresco, D.
Navarro-Urrios, C. M. Sotomayor-Torres, A. Martínez, and A. Makhoute,
“Optomechanic interaction in a corrugated phoxonic nanobeam cavity,” Phys. Rev. B 89, 245122 (2014). (link)
81. C. García-Meca, S. Carloni, C. Barceló, G. Jannes, J.
Sánchez-Dehesa, and A. Martínez, “Space–time transformation acoustics,” Wave Motion 51, 785–797 (2014). (link)
82. J. Carbonell, F. J. Rodríguez-Fortuño, A. Díaz-Rubio,
A. Martínez, F. Cervera, and J. Sánchez-Dehesa, “Directive excitation of guided
electromagnetic waves through polarization control,” Phys. Rev. B 89, 155121 (2014). (link)
83. F. J. Rodríguez-Fortuño, D. Puerto, A. Griol, L.
Bellieres, J. Martí, and A. Martínez, “Universal method for the synthesis of
arbitrary polarization states radiated by a nanoantennas,”
Laser Photonics Rev. 8(3), L27–L31
(2014). (link). Front
cover of the May issue.
84. F. J. Rodríguez-Fortuño, D. Puerto, A. Griol, L.
Bellieres, J. Martí, and A. Martínez, “Sorting linearly polarized photons with
a single scatterer,” Opt. Lett. 39,
1394-1397 (2014). (link)
85. C. García-Meca, R. Ortuño, J. Martí and A. Martínez,
“Full three-dimensional isotropic transformation media,” New J. Phys. 16 023030 (2014). (link)
86. J. M. Escalante, A. Martínez and V. Laude, “Design of
single-mode waveguides for enhanced light-sound interaction in
honeycomb-lattice silicon slabs,” J.
Appl. Phys. 115, 064302 (2014). (link)
87. V. Torres, R. Ortuño, P. Rodríguez-Ulibarri, A. Griol,
A. Martínez, M. Navarro-Cía, M. Beruete, and M. Sorolla, “Mid-infrared plasmonic inductors: Enhancing
inductance with meandering lines,” Scientific
Reports 4 (2014). (link)
2013
88. V. Laude, J. M. Escalante, and A. Martínez, “Effect of
loss on the dispersion relation of photonic and phononic crystals,” Phys. Rev. B. 88, 224302 (2013). (link)
89. S. El-Jallal, M. Oudich, Y.
Pennec, B. Djafari-Rouhani, V. Laude, J.-C. Beugnot,
A. Martínez, J. M. Escalante, and A. Makhoute,
“Analysis of optomechanical coupling in two-dimensional square lattice phoxonic crystal slab cavities,” Phys. Rev. B 88, 205410 (2013). (link)
90. J. M. Escalante, A. Martinez and V. Laude, “Dispersion
relation of coupled-resonator acoustic waveguides formed by defect cavities in
a phononic crystal,” J. Phys. D: Appl.
Phys. 46, 475301 (2013). (link)
91. J. M. Escalante and A. Martínez, “Optical gain by
simultaneous photon and phonon confinement in indirect bandgap semiconductor acousto-optical cavities,” Opt. Quant. Electron. 45, 1045–1056 (2013). (link)
92. M. Lorente-Crespo, L. Wang, R. Ortuño, C. Garcia Meca, Y. Ekinci, and A.
Martinez, “Magnetic Hot Spots in Closely Spaced Thick Gold Nanorings,”
Nano Lett. 13 (6), 2654–2661 (2013).
(link)
93.
C. García-Meca, S.
Carloni, C. Barceló, G. Jannes, J. Sánchez-Dehesa, and A. Martínez,
“Analogue Transformations in Physics and their Application to Acoustics,” Scientific Reports 3, 2009 (2013). (link)
94. F. J. Rodríguez-Fortuño, G. Marino, P. Ginzburg, D. O’Connor, A.
Martínez, G. A. Wurtz, A. V. Zayats, “Near-Field Interference for the
Unidirectional Excitation of Electromagnetic Guided Modes,” Science 340, 328-330 (2013). (link) Picture in the “This week in Science” section.
95. J. M. Escalante and A. Martínez, “Theoretical study about the relations among coefficients of stimulated emission, spontaneous emission and absorption in indirect bandgap semiconductor,” Physica B 411, 52-55 (2013). (link)
2012
96. P. Ginzburg, F. J. Rodríguez-Fortuño, A. Martínez, and
A. V. Zayats, “Analogue of the Quantum Hanle Effect and Polarization Conversion
in Non-Hermitian Plasmonic Metamaterials,” Nano
Lett. 12, 6309–6314 (2012). (link)
97. F. J. Rodríguez-Fortuño, R. Ortuño, C. García-Meca, J.
Martí, and A. Martínez, “High order standing-wave plasmon resonances in silver
u-shaped nanowires,” J. Appl. Phys.
112, 103104 (2012). (link)
98. D. Puerto, A. Griol, J. M. Escalante, Y. Pennec, B.
Djafari-Rouhani, J.-C. Beugnot, V. Laude, and A.
Martínez, “Honeycomb Photonic Crystal Waveguides in a Suspended Silicon Slab,” IEEE Photon. Technol. Lett. 24(22),
2056-2059 (2012). (link)
99. C. García-Meca, R. Ortuño, J. Martí and A. Martínez,
“Exciting Surface Plasmons with Transformation Media,” Plasmonics 7(4), 701-707 (2012).
(link)
100. J. M. Escalante & A. Martínez, “Theoretical study
about the gain in indirect bandgap semiconductor optical cavities”, Physica B 407(12), 2044–2049 (2012). (link)
2011
101. Y. Pennec, B. Djafari-Rouhani, C. Li, J. M. Escalante,
A. Martinez, S. Benchabane, V. Laude, and N. Papanikolaou, “Band gaps and
cavity modes in dual phononic and photonic strip waveguides”, AIP Advances 1, 041901 (2011). (link)
102. C. García-Meca, A. Martínez, and U. Leonhardt,
“Engineering antenna radiation patterns via quasi-conformal mappings,” Opt. Express 19, 23743-23750 (2011). (link)
103. M. Navarro-Cía, C.
García-Meca, M. Beruete, A. Martínez, and M. Sorolla,
“Dual-band double-negative-index fishnet metamaterial at millimeter-waves,” Opt. Lett. 36, 4245-4247 (2011). (link)
104. Y. Pennec, B. Djafari Rouhani, E.H. El Boudouti, C. Li, Y. El Hassouani, J.O. Vasseur, N.
Papanikolaou, S. Benchabane, V. Laude, and A. Martinez, “Band Gaps and
Waveguiding in Phoxonic Silicon Crystal Slabs,” Chin. J. Phys. 49, 100 (2011).
105. V. Laude, J.-C. Beugnot, S.
Benchabane, Y. Pennec, B. Djafari-Rouhani, N. Papanikolaou, J. M. Escalante,
and A. Martinez, “Simultaneous guidance of slow photons and slow acoustic
phonons in silicon phoxonic crystal slabs,” Opt. Express 19, 9690-9698 (2011). (link)
106. F. J. Rodríguez-Fortuño, M. Martínez-Marco, B. Tomás-Navarro, R. Ortuño,
J. Martí, A. Martínez and P. J. Rodríguez-Cantó, “Highly-sensitive
chemical detection in the infrared regime using plasmonic gold nanocrosses,” Appl. Phys. Lett. 98, 133118 (2011). (link)
107. C. García-Meca, M. M. Tung, J. V. Galán, R. Ortuño, F.
J. Rodríguez-Fortuño, J. Martí, and A. Martínez, “Squeezing and expanding light
without reflections via transformation optics,” Opt. Express 19, 3562-3575 (2011). (link)
108. C. García-Meca, J. Hurtado, J. Martí, A. Martínez, W.
Dickson and A. V. Zayats, “Low-loss multilayered metamaterial exhibiting a
negative index of refraction at visible wavelengths,” Phys. Rev. Lett. 106, 067402 (2011). (link)
109. P.J. Rodríguez-Cantó, M. Martínez-Marco, F. J.
Rodríguez-Fortuño, B. Tomás-Navarro, R. Ortuño, S. Peransí-Llopis,
and A. Martínez, “Demonstration of near infrared gas sensing using gold nanodisks on functionalized silicon,” Opt. Express 19, 7664-7672 (2011). (link)
2010
110. J. Blasco, J. V. Galán, P. Sanchis, J. M. Martínez, A.
Martínez, E. Jordana, J. M. Fedeli and J. Martí, “FWM in silicon
nanocrystal-based sandwiched slot waveguides”, Opt. Comm. 283, 435–437 (2010). (link)
111. R. Ortuño, C. García-Meca, F. J. Rodríguez-Fortuño, J.
Martí, and A. Martínez, “Multiple extraordinary optical transmission peaks from
evanescent coupling in perforated metal plates surrounded by dielectrics,” Opt. Express 18, 7893-7898 (2010). (link)
112. A. Martinez, J. Blasco, P. Sanchis, J. V. Galán, J.
García-Rupérez, E. Jordana, P. Gautier, Y. Lebour, S.
Hernández, R. Guider, N. Daldosso, B. Garrido, J.- M.
Fedeli, L. Pavesi, and J. Martí, “Ultrafast All-Optical Switching in a
Silicon-Nanocrystal-Based Silicon Slot Waveguide at Telecom Wavelengths”, Nano Lett. 10(4), 1506–1511 (2010). (link)
113. F. J. Rodríguez-Fortuño, B. Tomás-Navarro, C.
García-Meca, R. Ortuño, J. Martí, and A. Martínez, “Zero-bandwidth mode in a
split-ring-resonator-loaded one-dimensional photonic crystal”, Phys. Rev. B 81, 233101 (2010). (link)
114. Y. Pennec, B. Djafari Rouhani, E. H. El Boudouti, C. Li, Y. El Hassouani, J. O. Vasseur, N.
Papanikolaou, S. Benchabane, V. Laude, and A. Martinez, “Simultaneous existence
of phononic and photonic band gaps in periodic crystal slabs,” Opt. Express 18, 14301-14310 (2010). (link)
115. Y. El Hassouani, C. Li, Y. Pennec, E. H. El Boudouti, H. Larabi, A. Akjouj,
O. Bou Matar, V. Laude, N. Papanikolaou, A. Martinez, and B. Djafari Rouhani,
“Dual phononic and photonic band gaps in a periodic array of pillars deposited
on a thin plate”, Phys. Rev. B, 82,
155405 (2010). (link)
116. R. Ortuño, C. García-Meca, F. J. Rodríguez-Fortuño,
and A. Martínez, “Enlarging the negative-index bandwidth of optical
metamaterials by hybridized plasmon resonances,” Opt. Lett. 35, 4205-4207 (2010). (link)
2009
117. R. Ortuño, C. García-Meca, F. J. Rodríguez-Fortuño, J.
Martí and A. Martínez, “Role of surface plasmon polaritons on extraordinary
optical transmission through double-layer metallic hole arrays", Phys. Rev. B 79, 075425 (2009). (link)
118. F. J. Rodríguez-Fortuño, C. García-Meca, R. Ortuño, J.
Martí and A. Martínez, “High-order plasmon resonances on a u-shaped nanowire as
a negative-index metamaterial”, Phys.
Rev. B 79, 075103 (2009). (link)
119. C. García-Meca, R. Ortuño, F.J. Rodríguez-Fortuño, J.
Martí, and A. Martínez, “Negative refractive index metamaterials aided by
extraordinary optical transmission”, Opt.
Express 17(8), 6026-6031 (2009). (link)
120. C. García-Meca, R. Ortuño, F. J. Rodríguez-Fortuño, J.
Martí, and A. Martínez, "Double-negative polarization-independent fishnet
metamaterial in the visible spectrum," Opt.
Lett. 34, 1603-1605 (2009). (link)
121. J. V. Galan, P. Sanchis, J. Blasco, A. Martínez, J.
Martí, J.M. Fedeli, E. Jordana, P. Gautier and M. Perrin, "Silicon
sandwiched slot waveguide grating couplers," Electron. Lett. 45(5), 262-263 (2009). (link)
122. J. García, A. Martínez, J. Martí, “Proposal of an OADM
configuration with ultra-large FSR combining ring resonators and photonic
bandgap structures”, Opt. Comm. 282
(9), 1771-1774 (2009). (link)
123. J. V. Galan, P. Sanchis, J. Garcia, J. Blasco, A.
Martinez, and J. Martí, "Study of asymmetric silicon cross-slot waveguides
for polarization diversity schemes," Appl.
Opt. 48, 2693-2696 (2009). (link)
124. A. Martínez, C. García-Meca, R. Ortuño, F. J.
Rodríguez-Fortuño, and J. Martí, “Metamaterials for optical security”, Appl. Phys. Lett. 94, 251106 (2009). (link)
125. F. J. Rodríguez-Fortuño, C. García-Meca, R. Ortuño, J.
Martí, and A. Martínez, "Coaxial plasmonic waveguide array as a
negative-index metamaterial," Opt.
Lett. 34, 3325-3327 (2009). (link)
126. R. Ortuño, C. García-Meca, F. J. Rodríguez-Fortuño, A.
Håkansson, A. Griol, J. Hurtado, J. A. Ayucar, L. Bellieres, P. J. Rodríguez,
F. López-Royo, J. Martí, and A. Martínez, “Midinfrared filters based on
extraordinary optical transmission through subwavelength structured gold
films,” J. Appl. Phys. 106, 124313
(2009). (link)
2008
127. A. Martinez, R. García, A. Hakansson, M. A. Piqueras,
J. Sánchez-Dehesa, “Electromagnetic beaming from omnidirectional sources by
inverse design”, Appl. Phys. Lett.
92, 051105 (2008). (link)
128. F. Cuesta-Soto, A. Martínez and J. Martí,
"Experimental observation of intermodal dispersion in photonic crystal
directional couplers", J. Appl.
Phys. 104, 123107 (2008). (link)
129. J. Garcia, P. Sanchis, A. Martinez, and J. Marti,
"1D periodic structures for slow-wave induced
non-linearity enhancement," Opt.
Express 16, 3146-3160 (2008).
130. R. Salvador, A. Martínez, C. García-Meca, R. Ortuño
and J. Martí, "Analysis of hybrid dielectric-plasmonic waveguides", IEEE J. Sel. Topics Quantum Electron. 14
(6), 1496-1501 (2008). (link)
131. J.V. Galan, P. Sanchis, J. Blasco, A. Martinez, J.
Martí, "High efficiency fiber coupling to silicon sandwiched slot
waveguides," Opt. Comm. 281
5173–5176 (2008). (link)
132. R. Ortuño, C. García-Meca and A. Martínez, "Role
of the Lens Thickness and the Surface Termination in the Formation of
Subwavelength Images by a Negative-Index Photonic-Crystal Slab", The Open Optics Journal 2, 79-85 (2008).
2007
133. H. Pfrommer, C.-P. Liu, V. Polo, F. Van Dijk, M. A.
Piqueras, J. Herrera, A. Martínez, S. Karlsson, O. Kjebon,
R. Schatz, A. Enard, Y. Yu, T. Tsegaye, A. J. Seeds,
J. Martí, “Full-Duplex DOCSIS/WirelessDOCSIS
Fiber-Radio Network employing packaged AFPMs as Optical/Electrical
Transducers,” J. Lightwave Technol. 25(3),
673-684 (2007). (link)
134. A. Martínez, J. García, P. Sanchis, F. Cuesta-Soto, J.
Blasco, and J. Martí, “Intrinsic losses of coupled-cavity waveguides in
planar-photonic crystals”, Opt. Lett.
36(6), 635-637 (2007). (link)
135. F. Cuesta-Soto, A. Martínez, J. Blasco, and J. Martí,
“Numerical analysis of the performance of Mach-Zehnder interferometric logic
gates enhanced with coupled nonlinear ring- resonators,” Opt. Express 15, 2323-2335 (2007).
(link)
136. P. Sanchis, J. Blasco, A. Martínez, and J. Martí,
“Design of Silicon-Based Slot Waveguide Configurations for Optimum Nonlinear
Performance”, J. Lightwave Technol. 25(5),
1298-1305 (2007). (link)
137. C. García-Meca, R. Ortuño, R. Salvador, A. Martínez,
and J. Martí, “Low-loss single-layer metamaterial with negative index of
refraction at visible wavelengths,” Opt.
Express 15, 9320-9325 (2007). (link)
2006
138. H. Pfrommer, M. A. Piqueras, J. Herrera, V. Polo, A.
Martínez, S. Karlsson, O. Kjebon, R. Schatz, Y. Yu,
T. Tsegaye, C. P. Liu, C. H. Chuang, A. Enard, F. Van
Dijk, A. J. Seeds, and J. Martí, “Full-Duplex DOCSIS/WirelessDOCSIS
Fiber-Radio Network Employing Packaged AFPM-Based Base-Stations”, IEEE Photon. Technol. Lett. 18(2),
406-408 (2006). (link)
139. A. Martínez, M. A. Piqueras, and J. Martí, “Generation
of highly directional beam by k-space filtering using a metamaterial flat slab
with a small negative index of refraction”, Appl.
Phys. Lett. 89, 131111 (2006). (link)
140. A. Martínez and J. Martí, “Positive phase evolution of
waves propagating along a photonic crystal with negative index of refraction,” Opt. Express 14, 9805-9814 (2006). (link)
2005
141. P. Sanchis, J. Garcia, A. Martinez, and J. Marti,
“Pulse propagation in adiabatically coupled photonic crystal coupled cavity
waveguides”, J. Appl. Phys. 97(1), 013101 (2005). (link)
142. A. Martinez and J. Marti, “Analysis of wave focusing
inside a negative-index photonic-crystal slab,” Opt. Express 13,
2858-2868 (2005). (link)
143. A. Martínez and J. Martí, “Amphoteric-like refraction
in a two-dimensional photonic crystal”, Appl. Phys. B, Laser and
Optics 81, 301-304 (2005). (link)
144. A. Martínez and J. Martí, “Negative refraction in
two-dimensional photonic crystals: role of the lattice orientation and the
interface termination”, Phys. Rev. B 71, 235115 (2005). (link)
145. A. Martínez, H. Míguez, J. Sánchez-Dehesa, and J. Martí,
“Analysis of wave propagation in a two-dimensional photonic crystal with
negative index of refraction: plane wave decomposition of the Bloch modes,” Opt.
Express 13, 4160-4174 (2005). (link)
146. A. Martínez, P. Sanchis and J.r
Martí, “Mach-Zehnder interferometers in photonic crystals”, Opt. Quantum
Electron. 37, 77-93 (2005). (link)
147. J. García, A. Martínez, F. Cuesta-Soto, P. Sanchis, J.
Blasco, and J. Martí, “Broadening compensation for ultrashort pulses in
photonic crystals”, Opt. Quantum Electron. 37, 199-211 (2005). (link)
148. M. A. Piqueras, B. Vidal, J. L. Corral, V. Polo, A.
Martínez and J. Martí, “Direct Photonic Generation of Electrical Vector
Modulations at Microwave/Millimeter-Wave Frequencies”, IEEE Photon. Technol. Lett.
17(9), 1947-1949 (2005). (link)
2004
149. A. Martinez, V. Polo, H. Pfrommer, and J. Martí,
“Dispersion-tolerant transmission of QPSK and M-QAM signals simultaneously
modulated at 1 and 38 GHz over a hybrid fiber-radio link”, IEEE Photon. Technol. Lett.
16(2), 659-661 (2004).
150. F. Cuesta-Soto, A. Martínez, J. García, F. Ramos, P.
Sanchis, J. Blasco, and J. Martí, “All-optical switching structure based on a
photonic crystal directional coupler”, Opt. Express 12(1), 161-167
(2004).
151. V. Polo, G. Gómez, A. Martínez, J. Herrera, and J.
Martí, “Photonic microwave harmonic mixers based on electroabsorption
modulators”, Microwave Opt. Technol. Lett. 41(5), 361-364 (2004).
152. A. Martínez, H. Míguez, A. Griol, and J. Martí,
“Experimental and theoretical analysis of the self-focusing of light by a
photonic crystal lens”, Phys. Rev. B 69, 165119 (2004).
153. F. Cuesta-Soto, A. Martínez, B. García-Baños, and J.
Martí, “Numerical analysis of an all-optical switch based on a 2D nonlinear
photonic crystal”, J IEEE J. Sel.Topics Quantum Electron. 10(5), 1101-1106 (2004).
2003
154. A. Martínez, A. García, P. Sanchis, and J. Martí,
“Group velocity and dispersion model of coupled cavity waveguides in photonic
crystals”, J. Opt. Soc. Amer. A, 20(1),
147-150 (2003).
155. A. Griol, D. Mira, A. Martinez, J.Martí, and J. L. Corral, “Microstrip multistage coupled ring bandpass filters
using photonic bandgap structures for harmonic suppression”, Electron. Lett. 39(1), 68-70 (2003).
157. A. Martínez, A. Griol, P. Sanchis, and J. Martí,
“Mach-Zehnder interferometer employing coupled-resonator optical waveguides”, Opt.
Lett. 28(6), 405-407 (2003).
158. A. Martínez, J. Martí, J. Bravo-Abad, and J.
Sánchez-Dehesa, “Wavelength demultiplexing structure based on coupled cavity
waveguides in photonic crystals”, Fiber & Integrated Opt. 22(3),
151-160 (2003).
159. F. Cuesta, A. Griol, A. Martinez, and J. Martí, “Experimental demonstration of photonic crystal
directional coupler at microwave frequencies”, Electron. Lett. 39(5), 455-456 (2003).
160. A. Martínez, F. Cuesta, and J. Martí, “Ultrashort 2-D photonic crystal directional couplers”, IEEE Photon. Technol. Lett. 15(5),
694-696 (2003).
161. A. Martínez, V. Polo, J. L. Corral, and J. Martí,
“Experimental demonstration of dispersion-tolerant 155-Mb/s BPSK data
transmission at 40 GHz using an optical coherent harmonic generation
technique”, IEEE Photon. Technol. Lett. 15(5), 772-774 (2003).
162. P. Sanchis, J. Garcia, A. Martinez, F. Cuesta, A.
Griol, and J. Marti, “Analysis of adiabatic coupling between photonic crystal
single-line-defect and coupled-resonator optical waveguides”, Opt. Lett.
28(20), 1903-1905 (2003).
163. A. Martínez, J. Garcia, G. Sanchez, and J. Martí,
“Planar photonic crystal structure with inherently single-mode waveguides”, J.
Opt. Soc. Amer. A 20 (11), 2131-2136
(2003).
164. A. Martínez, F. Cuesta, A. Griol, D. Mira, J. García,
P. Sanchis, R. Llorente, and J. Martí, “Photonic-crystal
180º power splitter based on coupled cavity waveguides”, Appl. Phys. Lett.
83(15), 3033-3035 (2003).
2002
165. P. Sanchis, J. Martí, A. García, A. Martínez, and J.
Blasco, “High efficiency coupling technique for planar photonic crystal
waveguides”, Electron. Lett. 38(17), 961-962 (2002).
166. P. Sanchis, J. Martí, J. Blasco, A. Martínez, and A.
García, “Mode matching technique for highly efficient coupling between
dielectric waveguides and planar photonic crystal circuits”, Opt. Express
10(24), 1391-1397 (2002).
2001
168. A. Martínez, V. Polo, and J. Martí, “Simultaneous
Baseband and RF Optical Modulation Scheme for Feeding Wireless and Wireline
Heterogeneous Access Networks”, IEEE Trans. Microwave Theory Tech. 49,
2018-2024 (2001).