[68] A. Manjavacas, L. Zundel, and S. Sanders
Analysis of the limits of the near-field produced by nanoparticle arrays
ACS Nano (2019)
[67] Y. Yang, J. Lu, A. Manjavacas, T. S. Luk, H. Liu, J.-P. Maria, E. L. Runnerstrom, M. B. Sinclair, S. Ghimire, and I. Brener
High-harmonic generation from an epsilon-near-zero material
Nat. Phys. (2019)
[65] A. E. Schlather, P. Gieri, M. Robinson, S. A. Centeno, and A. Manjavacas
Nineteenth-century nanotechnology: The plasmonic properties of daguerreotypes
Proc. Natl. Acad. Sci. 116, 13791 (2019)
[64] A. Beierle, P. Gieri, H. Pan, M. D. Heagy, A. Manjavacas, S. Chowdhury
Titanium nitride nanoparticles for the efficient photocatalysis of bicarbonate into formate
Sol. Energy Mater. Sol. Cells 200, 109967 (2019)
[62] B. Kafle, P. Gieri, H. Kookhaee, T. E. Tesema, S. Haq, A. Manjavacas, and T. G. Habteyes
Robust charge transfer plasmons in metallic particle-film systems
ACS Photonics 5, 4022 (2018)
[61] S. Sanders, A. May, A. Alabastri and A. Manjavacas
Extraordinary enhancement of quadrupolar transitions using nanostructured graphene
ACS Photonics 5, 3282 (2018)
[60] S. Sanders and A. Manjavacas
Analysis of the limits of the local density of photonic states near nanostructures
ACS Photonics 5, 2437 (2018)
[59] S. Baur, S. Sanders, and A. Manjavacas
Hybridization of lattice resonances
ACS Nano 12, 1618 (2018)
[58] A. Manjavacas, R. Fenollosa, I. Rodriguez, M. C. Jimenez, M. A. Miranda, and F. Meseguer
Magnetic light and forbidden photochemistry: the case of singlet oxygen
J. Mater. Chem. C 5, 11824 (2017)
[57] L. Zundel, R. Martinez-Herrero, and A. Manjavacas
Flat top surface plasmon polariton beams
Opt. Lett. 42, 4143 (2017)
[56] A. Alabastri, M. Malerba, E. Calandrini, A. Manjavacas, F. De Angelis, A. Toma, and R. Proietti Zaccaria
Controlling the heat dissipation in temperature-matched plasmonic nanostructures
Nano Lett. 17, 5472 (2017)
[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 11, 7321 (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 4, 1831 (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)
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