[55] R. Zhang, L. Bursi, J. D. Cox, Y. Cui, C. M. Krauter, A. Alabastri, A. Manjavacas, A. Calzolari, S. Corni, E. Molinari, E. A. Carter, F. J. García de Abajo, H. Zhang, and P. Nordlander
How to identify plasmons from the optical response of nanostructures
ACS Nano ASAP (2017)
[54] M. F. Picardi, A. Manjavacas, A. Zayats, and F. J. Rodríguez-Fortuño
Unidirectional evanescent-wave coupling from circularly polarized electric and magnetic dipoles: An angular spectrum approach
Phys. Rev. B. 95, 245416 (2017)
[53] L. Zundel, and A. Manjavacas
Spatially resolved optical sensing using graphene nanodisk arrays
ACS Photonics ASAP (2017)
[52] E. P. Bellido, Y. Zhang, A. Manjavacas, P. Nordlander, and G. A. Botton
Plasmonic coupling of multipolar edge modes and the formation of gap modes
ACS Photonics 4, 1558 (2017)
[51] A. E. Schlather, A. Manjavacas, A. Lauchner, V. S. Marangoni, C. J. DeSantis, P. Nordlander, and N. J. Halas
Hot hole photoelectrochemistry on Au@SiO2@Au nanoparticles
J. Phys. Chem. Lett. 8, 2060 (2017)
[50] A. Manjavacas, F. J. Rodríguez-Fortuño, F. J. García de Abajo, and Anatoly V. Zayats
Lateral Casimir force on a rotating particle near a planar surface
Phys. Rev. Lett. 118, 133605 (2017)
[49] R. Yu, A. Manjavacas, and F. J. García de Abajo
Ultrafast radiative heat transfer
Nat. Commun. 8, 2 (2017)
[48] R. Martinez-Herrero and A. Manjavacas
Basis for paraxial surface-plasmon-polariton packets
Phys. Rev. A 94, 063829 (2016)
[47] Y. Cui, A. Lauchner, A. Manjavacas, F. J. García de Abajo, N. J. Halas, and P. Nordlander
Molecular plasmon-phonon coupling
Nano Lett. 16, 6390 (2016)
[46] A. Manjavacas
Anisotropic optical response of nanostructures with balanced gain and loss
ACS Photonics 3, 1301 (2016)
[45] Y. Zhang, A. Manjavacas, N. J. Hogan, L. Zhou, C. Ayala-Orozco, L. Dong, J. K. Day, P. Nordlander, and N. J. Halas
Toward Surface Plasmon-Enhanced Optical Parametric Amplification (SPOPA) with engineered nanoparticles: A nanoscale tunable infrared source
Nano Lett. 16, 3373 (2016)
[44] A. Alabastri, X. Yang, A. Manjavacas, H. O. Everitt, and P. Nordlander
Extraordinary light-induced local angular momentum near metallic nanoparticles
ACS Nano 10, 4835 (2016)
[43] E. P. Bellido, A. Manjavacas, Y. Zhang, Y. Cao, P. Nordlander, and G. A. Botton
Electron Energy-Loss spectroscopy of multipolar edge and cavity modes in silver nanosquares
ACS Photonics 3, 428 (2016)
[42] L. Zhou, C. Zhang, M. J. McClain, A. Manjavacas, C. M. Krauter, S. Tian, F. Berg, H. O. Everitt, E. A. Carter, P. Nordlander, and N. J. Halas
Aluminum nanocrystal as a plasmonic photocatalyst for hydrogen dissociation
Nano Lett. 16, 1478 (2016)
[41] J. Olson, A. Manjavacas, T. Basu, D. Huang, A. E. Schlather, B. Zheng, N. J. Halas, P. Nordlander, and S. Link
High chromaticity aluminum plasmonic pixels for active liquid crystal displays
ACS Nano 10, 1108 (2016)
[40] M. Castro-Lopez, A. Manjavacas, F. J. García de Abajo, and N. F. van Hulst
Propagation and localization of quantum dot emission along a gap-plasmonic transmission line
Opt. Express 23, 29296 (2015)
[39] R. Martinez-Herrero, A. Garcia-Ruiz, and A. Manjavacas
Parametric characterization of surface plasmon polaritons at a lossy interface
Opt. Express 23, 28574 (2015)
[38] C. J. DeSantis, D. Huang, H. Zhang, N. J. Hogan, H. Zhao, Y. Zhang, A. Manjavacas, Y. Zhang, W.-S. Chang, P. Nordlander, S. Link, and N. J. Halas
Laser-induced spectral hole-burning through a broadband distribution of Au nanorods
J. Phys. Chem. C 120, 20518 (2016)
[37] A. Sobhani, A. Manjavacas, Y. Cao, M. J. McClain, F. J. García de Abajo, P. Nordlander, and N. J. Halas
Pronounced linewidth narrowing of an aluminum nanoparticle plasmon resonance by interaction with an aluminum metallic film
Nano Lett. 15, 6946 (2015)
[36] A. Lauchner, A. E. Schlather, A. Manjavacas, Y. Cui, M. J. McClain, G. J. Stec, F. J. García de Abajo, P. Nordlander, and N. J. Halas
Molecular plasmonics
Nano Lett. 15, 6208 (2015)
[35] M. Zhang, N. Large, A. L. Koh,Y. Cao, A. Manjavacas, R. Sinclair, P. Nordlander, S. X. Wang
High-density 2D homo-and hetero-plasmonic dimers with universal sub-10-nm gaps
ACS Nano 9, 9331 (2015)
[34] B. Zheng, H. Zhao, A. Manjavacas, M. McClain, P. Nordlander, and N. J. Halas
Distinguishing between plasmon-induced and photoexcited carriers in a device geometry
Nat. Commun. 6, 7797 (2015)
[33] V. Kulkarni and A. Manjavacas
Quantum effects in charge transfer plasmons
ACS Photonics 2, 987 (2015)
[32] F. J. García de Abajo and A. Manjavacas
Plasmonics in atomically thin materials
Faraday Discuss. 178, 87 (2015)
[31] M. J. McClain, A. E. Schlather, E. Ringe, N. S. King, L. Liu, A. Manjavacas, M. W. Knight, I. Kumar, K. H. Whitmire, H. O. Everitt, P. Nordlander, and N. J. Halas
Aluminum nanocrystals
Nano Lett. 15, 2751 (2015)
[30] Y. Cao, A. Manjavacas, N. Large, and P. Nordlander
Electron energy-loss spectroscopy calculation in finite-difference time-domain package
ACS Photonics 2, 369 (2015)
[29] A. Manjavacas, S. Thongrattanasiri, J. J. Greffet, and F. J. García de Abajo
Graphene optical-to-thermal converter
Appl. Phys. Lett. 105, 211102 (2014)
[28] J. Olson, A. Manjavacas, L. Liu, W.-S. Chang, B. Foerster, N. S. King, M. W. Knight, P. Nordlander, N. J. Halas, and S. Link
Vivid, full-color aluminum plasmonic pixels
Proc. Natl. Acad. Sci. 111, 14348 (2014)
[27] A. Manjavacas, J. G. Liu, V. Kulkarni, and P. Nordlander
Plasmon-induced hot carriers in metallic nanoparticles
ACS Nano 8, 7630 (2014)
[26] A. Manjavacas and F. J. García de Abajo
Tunable plasmons in atomically thin gold nanodisks
Nat. Commun. 5, 3548 (2014)
[25] F. Marchesin, S. Thongrattanasiri, P. Koval, P. Nordlander, D. Sánchez-Portal, and F. J. García de Abajo
Tunable molecular plasmons in polycyclic aromatic hydrocarbons
ACS Nano 7, 3635 (2013)
[24] A. Manjavacas, S. Thongrattanasiri, and F. J. García de Abajo
Plasmons driven by single electrons in graphene nanoislands
Nanophotonics 2, 139 (2013)
[23] I. Silveiro, A. Manjavacas, S. Thongrattanasiri, and F. J. García de Abajo
Plasmonic energy transfer in periodically doped graphene
New J. Phys. 15, 033042 (2013)
[22] S. Thongrattanasiri, A. Manjavacas, P. Nordlander, and F. J. García de Abajo
Quantum junction plasmons in graphene dimers
Laser Photon. Rev. 7, 297 (2013)
[21] A. Manjavacas, S. Thongrattanasiri, D. E. Chang, and F. J. García de Abajo
Temporal quantum control with graphene
New J. Phys. 14, 123020 (2012)
[20] A. Asenjo-García, A. Manjavacas, V. Myroshnychenko, and F. J. García de Abajo
Magnetic polarization in the optical absorption of metallic nanoparticles
Opt. Express 20, 28142 (2012)
[19] R. Zhao, A. Manjavacas, F. J. García de Abajo, and J. B. Pendry
Rotational quantum friction
Phys. Rev. Lett. 109, 123604 (2012)
[18] A. Manjavacas and F. J. García de Abajo
Radiative heat transfer between neighboring particles
Phys. Rev. B 86, 075466 (2012)
[17] V. Myroshnychenko, A. Stefanski, A. Manjavacas, M. Kafesaki, R. I. Merino, V. M. Orera, D. A. Pawlak, and F. J. García de Abajo
Interacting plasmon and phonon polaritons in aligned nano- and microwires
Opt. Express 20, 10879 (2012)
[16] S. Thongrattanasiri, A. Manjavacas, and F. J. García de Abajo
Quantum finite-size effects in graphene plasmons
ACS Nano 6, 1766 (2012)
[15] A. Manjavacas, P. Nordlander, and F. J. García de Abajo
Plasmon blockade in nanostructured graphene
ACS Nano 6, 1764 (2012)
[14] J. Christensen, A. Manjavacas, S. Thongrattanasiri, F. H. L. Koppens, and F. J. García de Abajo
Plasmon blockade in nanostructured graphene
ACS Nano 6, 431 (2012)
[13] R. Martínez-Herrero, P. M. Mejías, M. Larraona-Puy, and A. Manjavacas
Intrinsic axes of partially coherent light beams and their invariance through rotationally symmetric ABCD optical systems
Appl. Phys. B 105, 399 (2011)
[12] R. Martínez-Herrero, P. M. Mejías, and A. Manjavacas
Overall spatial characterization of nonparaxial radially polarized beams propagating from the focal plane of a high-focusing optical system
J. Opt. 13, 085702 (2011)
[11] A. Manjavacas, F. J. García de Abajo, and P. Nordlander
Quantum plexcitonics: strongly interacting plasmons and excitons
Nano Lett. 11, 2318 (2011)
[10] A. Asenjo-García, A. Manjavacas, and F. J. García de Abajo
Stimulated light emission and inelastic scattering by a classical linear system of rotating particles
Phys. Rev. Lett. 106, 213601 (2011)
[9] A. Manjavacas and F. J. García de Abajo
Thermal and vacuum friction acting on rotating particles
Phys. Rev. A 82, 063827 (2010)
[8] R. Martínez-Herrero, P. M. Mejías, and A. Manjavacas
Beam width of highly-focused radially-polarized fields
Opt. Express 18, 20817 (2010)
[7] A. Manjavacas and F. J. García de Abajo
Vacuum friction in rotating particles
Phys. Rev. Lett. 105, 113601 (2010)
[6] R. Martínez-Herrero, P. M. Mejías, and A. Manjavacas
On the longitudinal polarization of non-paraxial electromagnetic fields
Appl. Phys. B 99, 579 (2010)
[5] R. Martínez-Herrero, A. Manjavacas, and P. M. Mejías
Cross-correlation between spiral modes and its influence on the overall spatial characteristics of partially coherent beams
Opt. Express 17, 19857 (2009)
[4] A. Manjavacas and F. J. García de Abajo
Coupling of gap plasmons in multi-wire waveguides
Opt. Express 17, 19401 (2009)
[3] A. G. Curto, A. Manjavacas, and F. J. García de Abajo
Near-field focusing with optical phase antennas
Opt. Express 17, 17801 (2009)
[2] A. Manjavacas, and F. J. García de Abajo
Robust plasmon waveguides on nanowire arrays
Nano Lett. 9, 1285 (2009)
[1] R. Martínez-Herrero, and A. Manjavacas
Overall second-order parametric characterization of light beams propaga-ting through spiral phase elements
Opt. Commun. 282, 473 (2009)
Dr. ALEJANDRO MANJAVACAS
1919 Lomas Blvb. NE - Room 1136
Phone: +1 (505) 277-1064
Email: manjavacas@unm.edu