Abstract

We have designed and fabricated a nanodevice exhibiting simultaneously ferromagnetic properties of nanostructures with plasmonic properties of continuous films. Our device consists of an array of nanomagnets on top of a continuous plasmonic film. The patterned nanomagnets magnetic state is single domain and well-defined shape anisotropy. Despite the presence of the patterned media on top of the Au film, the system exhibits surface plasmon resonance characteristics of a continuous film, i.e., propagating surface plasmon-polaritons.

© 2016 Optical Society of America

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2016 (5)

M. Rollinger, P. Thielen, E. Melander, E. Östman, V. Kapaklis, B. Obry, M. Cinchetti, A. García-Martín, M. Aeschlimann, and E. Th. Papaioannou, “Light Localization and Magneto-Optic Enhancement in Ni Antidot Arrays,” Nano Lett. 16(4), 2432–2438 (2016).
[Crossref] [PubMed]

N. Maccaferri, L. Bergamini, M. Pancaldi, M. K. Schmidt, M. Kataja, S. Dijken, N. Zabala, J. Aizpurua, and P. Vavassori, “Anisotropic Nanoantenna-Based Magnetoplasmonic Crystals for Highly Enhanced and Tunable Magneto-Optical Activity,” Nano Lett. 16(4), 2533–2542 (2016).
[Crossref] [PubMed]

M. Kataja, S. Pourjamal, N. Maccaferri, P. Vavassori, T. K. Hakala, M. J. Huttunen, P. Törmä, and S. van Dijken, “Hybrid plasmonic lattices with tunable magneto-optical activity,” Opt. Express 24(4), 3652–3662 (2016).
[Crossref] [PubMed]

L. Chen, J. Gao, W. Xia, S. Zhang, S. Tang, W. Zhang, D. Li, X. Wu, and Y. Du, “Tunable Fano resonance and magneto-optical response in magnetoplasmonic structure fabricated by pure ferromagnetic metals,” Phys. Rev. B 93(21), 214411 (2016).
[Crossref]

B. Caballero, A. García-Martín, and J. C. Cuevas, “Hybrid Magnetoplasmonic Crystals Boost the Performance of Nanohole Arrays as Plasmonic Sensors,” ACS Photonics 3(2), 203–208 (2016).
[Crossref]

2015 (4)

H. Y. Feng, F. Luo, D. Meneses-Rodriguez, G. Armelles, and A. Cebollada, “From disk to ring: Aspect ratio control of the magnetoplasmonic response in Au/Co/Au nanostructures fabricated by hole-mask colloidal lithography,” Appl. Phys. Lett. 106(8), 083105 (2015).
[Crossref]

N. Maccaferri, K. E. Gregorczyk, T. V. A. G. de Oliveira, M. Kataja, S. van Dijken, Z. Pirzadeh, A. Dmitriev, J. Åkerman, M. Knez, and P. Vavassori, “Ultrasensitive and label-free molecular-level detection enabled by light phase control in magnetoplasmonic nanoantennas,” Nat. Commun. 6, 6150 (2015).
[Crossref] [PubMed]

N. Maccaferri, X. Inchausti, A. García-Martín, J. C. Cuevas, D. Tripathy, A. O. Adeyeye, and P. Vavassori, “Resonant Enhancement of Magneto-Optical Activity Induced by Surface Plasmon Polariton Modes Coupling in 2D Magnetoplasmonic Crystals,” ACS Photonics 2(12), 1769–1779 (2015).
[Crossref]

X. Zhang and Y. Wu, “Effective medium theory for anisotropic metamaterials,” Sci. Rep. 5, 7892 (2015).
[Crossref] [PubMed]

2014 (4)

M. H. Tyboroski, N. R. Anderson, and R. E. Camley, “An effective medium study of surface plasmon polaritons in nanostructured gratings using attenuated total reflection,” J. Appl. Phys. 115(1), 013104 (2014).
[Crossref]

K. Lodewijks, N. Maccaferri, T. Pakizeh, R. K. Dumas, I. Zubritskaya, J. Akerman, P. Vavassori, and A. Dmitriev, “Magnetoplasmonic Design Rules for Active Magneto-Optics,” Nano Lett. 14(12), 7207–7214 (2014).
[Crossref] [PubMed]

S. Chandra, N. A. Huls, M. H. Phan, S. Srinath, M. A. Garcia, Y. Lee, C. Wang, S. Sun, Ò. Iglesias, and H. Srikanth, “Exchange bias effect in Au-Fe3O4 nanocomposites,” Nanotechnology 25(5), 055702 (2014).
[Crossref] [PubMed]

E. Th. Papaioannou, T. Meyer, and B. Hillebrands, “Magneto-optical enhancement in Co/Au patterned nanostructures,” J. Surf. Interf. Mat. 2, 40–45 (2014).

2013 (2)

N. Maccaferri, A. Berger, S. Bonetti, V. Bonanni, M. Kataja, Q. H. Qin, S. van Dijken, Z. Pirzadeh, A. Dmitriev, J. Nogués, J. Åkerman, and P. Vavassori, “Tuning the Magneto-Optical Response of Nanosize Ferromagnetic Ni Disks Using the Phase of Localized Plasmons,” Phys. Rev. Lett. 111(16), 167401 (2013).
[Crossref] [PubMed]

G. Armelles, A. Cebollada, A. García-Martín, and M. U. González, “Magnetoplasmonics: Combining Magnetic and Plasmonic Functionalities”,” Adv. Opt. Mat 1(1), 10–35 (2013).
[Crossref]

2012 (5)

T. Jungwirth, J. Wunderlich, and K. Olejník, “Spin Hall effect devices,” Nat. Mater. 11(5), 382–390 (2012).
[Crossref] [PubMed]

D. Martín-Becerra, V. V. Temnov, T. Thomay, A. Leitenstorfer, R. Bratschitsch, G. Armelles, A. García-Martín, and M. U. González, “Spectral dependence of the magnetic modulation of surface plasmon polaritons in noble/ferromagnetic/noble metal films,” Phys. Rev. B 86(3), 035118 (2012).
[Crossref]

J. C. Banthí, D. Meneses-Rodríguez, F. García, M. U. González, A. García-Martín, A. Cebollada, and G. Armelles, “High Magneto-Optical Activity and Low Optical Losses in Metal-Dielectric Au/Co/Au-SiO(2) Magnetoplasmonic Nanodisks,” Adv. Mater. 24(10), OP36–OP41 (2012).
[PubMed]

R. L. Olmon, B. Slovick, T. W. Johnson, D. Shelton, S. H. Oh, G. D. Boreman, and M. B. Raschke, “Optical dielectric function of gold,” Phys. Rev. B 86(23), 235147 (2012).
[Crossref]

F. Galvez, C. Monton, A. Serrano, I. Valmianski, J. de la Venta, I. K. Schuller, and M. A. Garcia, “Effect of photodiode angular response on surface plasmon resonance measurements in the Kretschmann-Raether configuration,” Rev. Sci. Instrum. 83(9), 093102 (2012).
[Crossref] [PubMed]

2011 (3)

J. M. Teixeira, R. Lusche, J. Ventura, R. Fermento, F. Carpinteiro, J. P. Araujo, J. B. Sousa, S. Cardoso, and P. P. Freitas, “Versatile, high sensitivity, and automatized angular dependent vectorial Kerr magnetometer for the analysis of nanostructured materials,” Rev. Sci. Instrum. 82(4), 043902 (2011).
[Crossref] [PubMed]

V. I. Belotelov, I. A. Akimov, M. Pohl, V. A. Kotov, S. Kasture, A. S. Vengurlekar, A. V. Gopal, D. R. Yakovlev, A. K. Zvezdin, and M. Bayer, “Enhanced magneto-optical effects in magnetoplasmonic crystals,” Nat. Nanotechnol. 6(6), 370–376 (2011).
[Crossref] [PubMed]

J. Chen, P. Albella, Z. Pirzadeh, P. Alonso-González, F. Huth, S. Bonetti, V. Bonanni, J. Åkerman, J. Nogués, P. Vavassori, A. Dmitriev, J. Aizpurua, and R. Hillenbrand, “Plasmonic Nickel Nanoantennas,” Small 7(16), 2341–2347 (2011).
[Crossref] [PubMed]

2010 (5)

J. A. Schuller, E. S. Barnard, W. Cai, Y. C. Jun, J. S. White, and M. L. Brongersma, “Plasmonics for extreme light concentration and manipulation,” Nat. Mater. 9(3), 193–204 (2010).
[Crossref] [PubMed]

Y. Lee, M. A. Garcia, N. A. Frey Huls, and S. Sun, “Synthetic tuning of the catalytic properties of Au-Fe3O4 nanoparticles,” Angew. Chem. Int. Ed. Engl. 49(7), 1271–1274 (2010).
[Crossref] [PubMed]

V. Temnov, G. Armelles, U. Woggon, D. Guzatov, A. Cebollada, A. Garcia-Martin, J. M. Garcia-Martin, T. Thomay, A. Leitenstorfer, and R. Bratschitsch, “Active magneto-plasmonics in hybrid metal–ferromagnet structures,” Nat. Photonics 4(2), 107–111 (2010).
[Crossref]

D. Regatos, D. Fariña, A. Calle, A. Cebollada, B. Sepúlveda, G. Armelles, and L. M. Lechuga, “Au/Fe/Au multilayer transducers for magneto-optic surface plasmon resonance sensing,” J. Appl. Phys. 108(5), 054502 (2010).
[Crossref]

A. Serrano, O. Rodriguez de la Fuente, and M. A. García, “Extended and localized surface plasmons in annealed Au films on glass substrates,” J. Appl. Phys. 108(7), 074303 (2010).
[Crossref]

2009 (4)

G. Armelles, A. Cebollada, A. García-Martín, J. M. García-Martín, M. U. Gonzalez, J. B. González-Díaz, E. Ferreiro-Vila, and J. F. Torrado, “Magnetoplasmonic nanostructures: systems supporting both plasmonic and magnetic properties,” J. Opt. A, Pure Appl. Opt. 11(11), 114023 (2009).
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E. Ferreiro-Vila, J. B. González-Díaz, R. Fermento, M. U. González, A. García-Martín, J. M. García-Martín, A. Cebollada, G. Armelles, D. Meneses-Rodríguez, and E. Muñoz Sandoval, “Intertwined magneto-optical and plasmonic effects in Ag/Co/Ag layered structures,” Phys. Rev. B 80(12), 125132 (2009).
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2008 (4)

G. A. Wurtz, W. Hendren, R. Pollard, R. Atkinson, L. Le Guyader, A. Kirilyuk, T. Rasing, I. I. Smolyaninov, and A. Zayats, “Controlling optical transmission through magneto-plasmonic crystals with an external magnetic field,” New J. Phys. 10(10), 105012 (2008).
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J. B. González-Díaz, A. García-Martín, J. M. García-Martín, A. Cebollada, G. Armelles, B. Sepúlveda, Y. Alaverdyan, and M. Käll, “Plasmonic Au/Co/Au nanosandwiches with enhanced magneto-optical activity,” Small 4(2), 202–205 (2008).
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E. Ferreiro Vila, X. M. Bendana, J. B. González-Díaz, A. García-Martín, J. M. García-Martín, A. Cebollada, G. Armelles, D. Meneses, and E. Muñoz-Sandoval, “Surface plasmon resonance effects in the magneto-optical activity of Ag–Co–Ag trilayers,” IEEE Trans. Magn. 44(11), 3303–3306 (2008).
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F. Bao, J. F. Li, B. Ren, J. L. Yao, R. A. Gu, and Z. Q. Tian, “Synthesis and Characterization of Au@Co and Au@Ni Core−Shell Nanoparticles and Their Applications in Surface-Enhanced Raman Spectroscopy,” J. Phys. Chem. C 112(2), 345–350 (2008).
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2007 (2)

H. Y. Park, M. J. Schadt, L. Wang, I. I. Lim, P. N. Njoki, S. H. Kim, M. Y. Jang, J. Luo, and C. J. Zhong, “Fabrication of Magnetic Core@Shell Fe Oxide@Au Nanoparticles for Interfacial Bioactivity and Bio-separation,” Langmuir 23(17), 9050–9056 (2007).
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2006 (1)

J. Mejia-Lopez, D. Altbir, A. H. Romero, X. Battle, I. V. Roshchin, C. P. Li, and I. K. Schuller, “Vortex state and effect of anisotropy in sub-100-nm magnetic nanodots,” J. Appl. Phys. 100(10), 104319 (2006).
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2005 (1)

S. I. Bozhevolnyi, V. S. Volkov, E. Devaux, and T. W. Ebbesen, “Channel plasmon-polariton guiding by subwavelength metal grooves,” Phys. Rev. Lett. 95(4), 046802 (2005).
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2004 (2)

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2003 (1)

W. L. Barnes, A. Dereux, and T. W. Ebbesen, “Surface plasmon subwavelength optics,” Nature 424(6950), 824–830 (2003).
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2002 (1)

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1999 (2)

C. A. Ross, H. I. Smith, T. Savas, M. Schattenburg, M. Farhoud, M. Hwang, M. Walsh, M. C. Abraham, and R. J. Ram, “Fabrication of patterned media for high density magnetic storage,” J. Vac. Sci. Technol. B 17(6), 3168–3176 (1999).
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1972 (1)

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C. A. Ross, H. I. Smith, T. Savas, M. Schattenburg, M. Farhoud, M. Hwang, M. Walsh, M. C. Abraham, and R. J. Ram, “Fabrication of patterned media for high density magnetic storage,” J. Vac. Sci. Technol. B 17(6), 3168–3176 (1999).
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Adeyeye, A. O.

N. Maccaferri, X. Inchausti, A. García-Martín, J. C. Cuevas, D. Tripathy, A. O. Adeyeye, and P. Vavassori, “Resonant Enhancement of Magneto-Optical Activity Induced by Surface Plasmon Polariton Modes Coupling in 2D Magnetoplasmonic Crystals,” ACS Photonics 2(12), 1769–1779 (2015).
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Aeschlimann, M.

M. Rollinger, P. Thielen, E. Melander, E. Östman, V. Kapaklis, B. Obry, M. Cinchetti, A. García-Martín, M. Aeschlimann, and E. Th. Papaioannou, “Light Localization and Magneto-Optic Enhancement in Ni Antidot Arrays,” Nano Lett. 16(4), 2432–2438 (2016).
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Aizpurua, J.

N. Maccaferri, L. Bergamini, M. Pancaldi, M. K. Schmidt, M. Kataja, S. Dijken, N. Zabala, J. Aizpurua, and P. Vavassori, “Anisotropic Nanoantenna-Based Magnetoplasmonic Crystals for Highly Enhanced and Tunable Magneto-Optical Activity,” Nano Lett. 16(4), 2533–2542 (2016).
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J. Chen, P. Albella, Z. Pirzadeh, P. Alonso-González, F. Huth, S. Bonetti, V. Bonanni, J. Åkerman, J. Nogués, P. Vavassori, A. Dmitriev, J. Aizpurua, and R. Hillenbrand, “Plasmonic Nickel Nanoantennas,” Small 7(16), 2341–2347 (2011).
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Akerman, J.

K. Lodewijks, N. Maccaferri, T. Pakizeh, R. K. Dumas, I. Zubritskaya, J. Akerman, P. Vavassori, and A. Dmitriev, “Magnetoplasmonic Design Rules for Active Magneto-Optics,” Nano Lett. 14(12), 7207–7214 (2014).
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N. Maccaferri, K. E. Gregorczyk, T. V. A. G. de Oliveira, M. Kataja, S. van Dijken, Z. Pirzadeh, A. Dmitriev, J. Åkerman, M. Knez, and P. Vavassori, “Ultrasensitive and label-free molecular-level detection enabled by light phase control in magnetoplasmonic nanoantennas,” Nat. Commun. 6, 6150 (2015).
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N. Maccaferri, A. Berger, S. Bonetti, V. Bonanni, M. Kataja, Q. H. Qin, S. van Dijken, Z. Pirzadeh, A. Dmitriev, J. Nogués, J. Åkerman, and P. Vavassori, “Tuning the Magneto-Optical Response of Nanosize Ferromagnetic Ni Disks Using the Phase of Localized Plasmons,” Phys. Rev. Lett. 111(16), 167401 (2013).
[Crossref] [PubMed]

J. Chen, P. Albella, Z. Pirzadeh, P. Alonso-González, F. Huth, S. Bonetti, V. Bonanni, J. Åkerman, J. Nogués, P. Vavassori, A. Dmitriev, J. Aizpurua, and R. Hillenbrand, “Plasmonic Nickel Nanoantennas,” Small 7(16), 2341–2347 (2011).
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Akimov, I. A.

V. I. Belotelov, I. A. Akimov, M. Pohl, V. A. Kotov, S. Kasture, A. S. Vengurlekar, A. V. Gopal, D. R. Yakovlev, A. K. Zvezdin, and M. Bayer, “Enhanced magneto-optical effects in magnetoplasmonic crystals,” Nat. Nanotechnol. 6(6), 370–376 (2011).
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Alaverdyan, Y.

J. B. González-Díaz, A. García-Martín, J. M. García-Martín, A. Cebollada, G. Armelles, B. Sepúlveda, Y. Alaverdyan, and M. Käll, “Plasmonic Au/Co/Au nanosandwiches with enhanced magneto-optical activity,” Small 4(2), 202–205 (2008).
[Crossref] [PubMed]

Albella, P.

J. Chen, P. Albella, Z. Pirzadeh, P. Alonso-González, F. Huth, S. Bonetti, V. Bonanni, J. Åkerman, J. Nogués, P. Vavassori, A. Dmitriev, J. Aizpurua, and R. Hillenbrand, “Plasmonic Nickel Nanoantennas,” Small 7(16), 2341–2347 (2011).
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Alonso-González, P.

J. Chen, P. Albella, Z. Pirzadeh, P. Alonso-González, F. Huth, S. Bonetti, V. Bonanni, J. Åkerman, J. Nogués, P. Vavassori, A. Dmitriev, J. Aizpurua, and R. Hillenbrand, “Plasmonic Nickel Nanoantennas,” Small 7(16), 2341–2347 (2011).
[Crossref] [PubMed]

Altbir, D.

J. Mejia-Lopez, D. Altbir, A. H. Romero, X. Battle, I. V. Roshchin, C. P. Li, and I. K. Schuller, “Vortex state and effect of anisotropy in sub-100-nm magnetic nanodots,” J. Appl. Phys. 100(10), 104319 (2006).
[Crossref]

Anderson, N. R.

M. H. Tyboroski, N. R. Anderson, and R. E. Camley, “An effective medium study of surface plasmon polaritons in nanostructured gratings using attenuated total reflection,” J. Appl. Phys. 115(1), 013104 (2014).
[Crossref]

Araujo, J. P.

J. M. Teixeira, R. Lusche, J. Ventura, R. Fermento, F. Carpinteiro, J. P. Araujo, J. B. Sousa, S. Cardoso, and P. P. Freitas, “Versatile, high sensitivity, and automatized angular dependent vectorial Kerr magnetometer for the analysis of nanostructured materials,” Rev. Sci. Instrum. 82(4), 043902 (2011).
[Crossref] [PubMed]

Armelles, G.

H. Y. Feng, F. Luo, D. Meneses-Rodriguez, G. Armelles, and A. Cebollada, “From disk to ring: Aspect ratio control of the magnetoplasmonic response in Au/Co/Au nanostructures fabricated by hole-mask colloidal lithography,” Appl. Phys. Lett. 106(8), 083105 (2015).
[Crossref]

G. Armelles, A. Cebollada, A. García-Martín, and M. U. González, “Magnetoplasmonics: Combining Magnetic and Plasmonic Functionalities”,” Adv. Opt. Mat 1(1), 10–35 (2013).
[Crossref]

D. Martín-Becerra, V. V. Temnov, T. Thomay, A. Leitenstorfer, R. Bratschitsch, G. Armelles, A. García-Martín, and M. U. González, “Spectral dependence of the magnetic modulation of surface plasmon polaritons in noble/ferromagnetic/noble metal films,” Phys. Rev. B 86(3), 035118 (2012).
[Crossref]

J. C. Banthí, D. Meneses-Rodríguez, F. García, M. U. González, A. García-Martín, A. Cebollada, and G. Armelles, “High Magneto-Optical Activity and Low Optical Losses in Metal-Dielectric Au/Co/Au-SiO(2) Magnetoplasmonic Nanodisks,” Adv. Mater. 24(10), OP36–OP41 (2012).
[PubMed]

D. Regatos, D. Fariña, A. Calle, A. Cebollada, B. Sepúlveda, G. Armelles, and L. M. Lechuga, “Au/Fe/Au multilayer transducers for magneto-optic surface plasmon resonance sensing,” J. Appl. Phys. 108(5), 054502 (2010).
[Crossref]

V. Temnov, G. Armelles, U. Woggon, D. Guzatov, A. Cebollada, A. Garcia-Martin, J. M. Garcia-Martin, T. Thomay, A. Leitenstorfer, and R. Bratschitsch, “Active magneto-plasmonics in hybrid metal–ferromagnet structures,” Nat. Photonics 4(2), 107–111 (2010).
[Crossref]

E. Ferreiro-Vila, J. B. González-Díaz, R. Fermento, M. U. González, A. García-Martín, J. M. García-Martín, A. Cebollada, G. Armelles, D. Meneses-Rodríguez, and E. Muñoz Sandoval, “Intertwined magneto-optical and plasmonic effects in Ag/Co/Ag layered structures,” Phys. Rev. B 80(12), 125132 (2009).
[Crossref]

G. Armelles, A. Cebollada, A. García-Martín, J. M. García-Martín, M. U. Gonzalez, J. B. González-Díaz, E. Ferreiro-Vila, and J. F. Torrado, “Magnetoplasmonic nanostructures: systems supporting both plasmonic and magnetic properties,” J. Opt. A, Pure Appl. Opt. 11(11), 114023 (2009).
[Crossref]

E. Ferreiro Vila, X. M. Bendana, J. B. González-Díaz, A. García-Martín, J. M. García-Martín, A. Cebollada, G. Armelles, D. Meneses, and E. Muñoz-Sandoval, “Surface plasmon resonance effects in the magneto-optical activity of Ag–Co–Ag trilayers,” IEEE Trans. Magn. 44(11), 3303–3306 (2008).
[Crossref]

J. B. González-Díaz, A. García-Martín, J. M. García-Martín, A. Cebollada, G. Armelles, B. Sepúlveda, Y. Alaverdyan, and M. Käll, “Plasmonic Au/Co/Au nanosandwiches with enhanced magneto-optical activity,” Small 4(2), 202–205 (2008).
[Crossref] [PubMed]

Atkinson, R.

G. A. Wurtz, W. Hendren, R. Pollard, R. Atkinson, L. Le Guyader, A. Kirilyuk, T. Rasing, I. I. Smolyaninov, and A. Zayats, “Controlling optical transmission through magneto-plasmonic crystals with an external magnetic field,” New J. Phys. 10(10), 105012 (2008).
[Crossref]

Banthí, J. C.

J. C. Banthí, D. Meneses-Rodríguez, F. García, M. U. González, A. García-Martín, A. Cebollada, and G. Armelles, “High Magneto-Optical Activity and Low Optical Losses in Metal-Dielectric Au/Co/Au-SiO(2) Magnetoplasmonic Nanodisks,” Adv. Mater. 24(10), OP36–OP41 (2012).
[PubMed]

Bao, F.

F. Bao, J. F. Li, B. Ren, J. L. Yao, R. A. Gu, and Z. Q. Tian, “Synthesis and Characterization of Au@Co and Au@Ni Core−Shell Nanoparticles and Their Applications in Surface-Enhanced Raman Spectroscopy,” J. Phys. Chem. C 112(2), 345–350 (2008).
[Crossref]

Barnard, E. S.

J. A. Schuller, E. S. Barnard, W. Cai, Y. C. Jun, J. S. White, and M. L. Brongersma, “Plasmonics for extreme light concentration and manipulation,” Nat. Mater. 9(3), 193–204 (2010).
[Crossref] [PubMed]

Barnes, W. L.

W. L. Barnes, A. Dereux, and T. W. Ebbesen, “Surface plasmon subwavelength optics,” Nature 424(6950), 824–830 (2003).
[Crossref] [PubMed]

Battle, X.

J. Mejia-Lopez, D. Altbir, A. H. Romero, X. Battle, I. V. Roshchin, C. P. Li, and I. K. Schuller, “Vortex state and effect of anisotropy in sub-100-nm magnetic nanodots,” J. Appl. Phys. 100(10), 104319 (2006).
[Crossref]

Bayer, M.

V. I. Belotelov, I. A. Akimov, M. Pohl, V. A. Kotov, S. Kasture, A. S. Vengurlekar, A. V. Gopal, D. R. Yakovlev, A. K. Zvezdin, and M. Bayer, “Enhanced magneto-optical effects in magnetoplasmonic crystals,” Nat. Nanotechnol. 6(6), 370–376 (2011).
[Crossref] [PubMed]

Belotelov, V. I.

V. I. Belotelov, I. A. Akimov, M. Pohl, V. A. Kotov, S. Kasture, A. S. Vengurlekar, A. V. Gopal, D. R. Yakovlev, A. K. Zvezdin, and M. Bayer, “Enhanced magneto-optical effects in magnetoplasmonic crystals,” Nat. Nanotechnol. 6(6), 370–376 (2011).
[Crossref] [PubMed]

Bendana, X. M.

E. Ferreiro Vila, X. M. Bendana, J. B. González-Díaz, A. García-Martín, J. M. García-Martín, A. Cebollada, G. Armelles, D. Meneses, and E. Muñoz-Sandoval, “Surface plasmon resonance effects in the magneto-optical activity of Ag–Co–Ag trilayers,” IEEE Trans. Magn. 44(11), 3303–3306 (2008).
[Crossref]

Bennett, B. R.

P. R. Hammar, B. R. Bennett, M. J. Yang, and M. Johnson, “Observation of Spin Injection at a Ferromagnet-Semiconductor Interface,” Phys. Rev. Lett. 83(1), 203–206 (1999).
[Crossref]

Bergamini, L.

N. Maccaferri, L. Bergamini, M. Pancaldi, M. K. Schmidt, M. Kataja, S. Dijken, N. Zabala, J. Aizpurua, and P. Vavassori, “Anisotropic Nanoantenna-Based Magnetoplasmonic Crystals for Highly Enhanced and Tunable Magneto-Optical Activity,” Nano Lett. 16(4), 2533–2542 (2016).
[Crossref] [PubMed]

Berger, A.

N. Maccaferri, A. Berger, S. Bonetti, V. Bonanni, M. Kataja, Q. H. Qin, S. van Dijken, Z. Pirzadeh, A. Dmitriev, J. Nogués, J. Åkerman, and P. Vavassori, “Tuning the Magneto-Optical Response of Nanosize Ferromagnetic Ni Disks Using the Phase of Localized Plasmons,” Phys. Rev. Lett. 111(16), 167401 (2013).
[Crossref] [PubMed]

Bonanni, V.

N. Maccaferri, A. Berger, S. Bonetti, V. Bonanni, M. Kataja, Q. H. Qin, S. van Dijken, Z. Pirzadeh, A. Dmitriev, J. Nogués, J. Åkerman, and P. Vavassori, “Tuning the Magneto-Optical Response of Nanosize Ferromagnetic Ni Disks Using the Phase of Localized Plasmons,” Phys. Rev. Lett. 111(16), 167401 (2013).
[Crossref] [PubMed]

J. Chen, P. Albella, Z. Pirzadeh, P. Alonso-González, F. Huth, S. Bonetti, V. Bonanni, J. Åkerman, J. Nogués, P. Vavassori, A. Dmitriev, J. Aizpurua, and R. Hillenbrand, “Plasmonic Nickel Nanoantennas,” Small 7(16), 2341–2347 (2011).
[Crossref] [PubMed]

Bonetti, S.

N. Maccaferri, A. Berger, S. Bonetti, V. Bonanni, M. Kataja, Q. H. Qin, S. van Dijken, Z. Pirzadeh, A. Dmitriev, J. Nogués, J. Åkerman, and P. Vavassori, “Tuning the Magneto-Optical Response of Nanosize Ferromagnetic Ni Disks Using the Phase of Localized Plasmons,” Phys. Rev. Lett. 111(16), 167401 (2013).
[Crossref] [PubMed]

J. Chen, P. Albella, Z. Pirzadeh, P. Alonso-González, F. Huth, S. Bonetti, V. Bonanni, J. Åkerman, J. Nogués, P. Vavassori, A. Dmitriev, J. Aizpurua, and R. Hillenbrand, “Plasmonic Nickel Nanoantennas,” Small 7(16), 2341–2347 (2011).
[Crossref] [PubMed]

Boreman, G. D.

R. L. Olmon, B. Slovick, T. W. Johnson, D. Shelton, S. H. Oh, G. D. Boreman, and M. B. Raschke, “Optical dielectric function of gold,” Phys. Rev. B 86(23), 235147 (2012).
[Crossref]

Bozhevolnyi, S. I.

S. I. Bozhevolnyi, V. S. Volkov, E. Devaux, and T. W. Ebbesen, “Channel plasmon-polariton guiding by subwavelength metal grooves,” Phys. Rev. Lett. 95(4), 046802 (2005).
[Crossref] [PubMed]

Bratschitsch, R.

D. Martín-Becerra, V. V. Temnov, T. Thomay, A. Leitenstorfer, R. Bratschitsch, G. Armelles, A. García-Martín, and M. U. González, “Spectral dependence of the magnetic modulation of surface plasmon polaritons in noble/ferromagnetic/noble metal films,” Phys. Rev. B 86(3), 035118 (2012).
[Crossref]

V. Temnov, G. Armelles, U. Woggon, D. Guzatov, A. Cebollada, A. Garcia-Martin, J. M. Garcia-Martin, T. Thomay, A. Leitenstorfer, and R. Bratschitsch, “Active magneto-plasmonics in hybrid metal–ferromagnet structures,” Nat. Photonics 4(2), 107–111 (2010).
[Crossref]

Brongersma, M. L.

J. A. Schuller, E. S. Barnard, W. Cai, Y. C. Jun, J. S. White, and M. L. Brongersma, “Plasmonics for extreme light concentration and manipulation,” Nat. Mater. 9(3), 193–204 (2010).
[Crossref] [PubMed]

Caballero, B.

B. Caballero, A. García-Martín, and J. C. Cuevas, “Hybrid Magnetoplasmonic Crystals Boost the Performance of Nanohole Arrays as Plasmonic Sensors,” ACS Photonics 3(2), 203–208 (2016).
[Crossref]

Cai, W.

J. A. Schuller, E. S. Barnard, W. Cai, Y. C. Jun, J. S. White, and M. L. Brongersma, “Plasmonics for extreme light concentration and manipulation,” Nat. Mater. 9(3), 193–204 (2010).
[Crossref] [PubMed]

Calle, A.

D. Regatos, D. Fariña, A. Calle, A. Cebollada, B. Sepúlveda, G. Armelles, and L. M. Lechuga, “Au/Fe/Au multilayer transducers for magneto-optic surface plasmon resonance sensing,” J. Appl. Phys. 108(5), 054502 (2010).
[Crossref]

Camley, R. E.

M. H. Tyboroski, N. R. Anderson, and R. E. Camley, “An effective medium study of surface plasmon polaritons in nanostructured gratings using attenuated total reflection,” J. Appl. Phys. 115(1), 013104 (2014).
[Crossref]

Cardoso, S.

J. M. Teixeira, R. Lusche, J. Ventura, R. Fermento, F. Carpinteiro, J. P. Araujo, J. B. Sousa, S. Cardoso, and P. P. Freitas, “Versatile, high sensitivity, and automatized angular dependent vectorial Kerr magnetometer for the analysis of nanostructured materials,” Rev. Sci. Instrum. 82(4), 043902 (2011).
[Crossref] [PubMed]

Carpinteiro, F.

J. M. Teixeira, R. Lusche, J. Ventura, R. Fermento, F. Carpinteiro, J. P. Araujo, J. B. Sousa, S. Cardoso, and P. P. Freitas, “Versatile, high sensitivity, and automatized angular dependent vectorial Kerr magnetometer for the analysis of nanostructured materials,” Rev. Sci. Instrum. 82(4), 043902 (2011).
[Crossref] [PubMed]

Cebollada, A.

H. Y. Feng, F. Luo, D. Meneses-Rodriguez, G. Armelles, and A. Cebollada, “From disk to ring: Aspect ratio control of the magnetoplasmonic response in Au/Co/Au nanostructures fabricated by hole-mask colloidal lithography,” Appl. Phys. Lett. 106(8), 083105 (2015).
[Crossref]

G. Armelles, A. Cebollada, A. García-Martín, and M. U. González, “Magnetoplasmonics: Combining Magnetic and Plasmonic Functionalities”,” Adv. Opt. Mat 1(1), 10–35 (2013).
[Crossref]

J. C. Banthí, D. Meneses-Rodríguez, F. García, M. U. González, A. García-Martín, A. Cebollada, and G. Armelles, “High Magneto-Optical Activity and Low Optical Losses in Metal-Dielectric Au/Co/Au-SiO(2) Magnetoplasmonic Nanodisks,” Adv. Mater. 24(10), OP36–OP41 (2012).
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G. Armelles, A. Cebollada, A. García-Martín, and M. U. González, “Magnetoplasmonics: Combining Magnetic and Plasmonic Functionalities”,” Adv. Opt. Mat 1(1), 10–35 (2013).
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[Crossref]

J. C. Banthí, D. Meneses-Rodríguez, F. García, M. U. González, A. García-Martín, A. Cebollada, and G. Armelles, “High Magneto-Optical Activity and Low Optical Losses in Metal-Dielectric Au/Co/Au-SiO(2) Magnetoplasmonic Nanodisks,” Adv. Mater. 24(10), OP36–OP41 (2012).
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N. Maccaferri, K. E. Gregorczyk, T. V. A. G. de Oliveira, M. Kataja, S. van Dijken, Z. Pirzadeh, A. Dmitriev, J. Åkerman, M. Knez, and P. Vavassori, “Ultrasensitive and label-free molecular-level detection enabled by light phase control in magnetoplasmonic nanoantennas,” Nat. Commun. 6, 6150 (2015).
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C. A. Ross, H. I. Smith, T. Savas, M. Schattenburg, M. Farhoud, M. Hwang, M. Walsh, M. C. Abraham, and R. J. Ram, “Fabrication of patterned media for high density magnetic storage,” J. Vac. Sci. Technol. B 17(6), 3168–3176 (1999).
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S. Chandra, N. A. Huls, M. H. Phan, S. Srinath, M. A. Garcia, Y. Lee, C. Wang, S. Sun, Ò. Iglesias, and H. Srikanth, “Exchange bias effect in Au-Fe3O4 nanocomposites,” Nanotechnology 25(5), 055702 (2014).
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Wang, L.

H. Y. Park, M. J. Schadt, L. Wang, I. I. Lim, P. N. Njoki, S. H. Kim, M. Y. Jang, J. Luo, and C. J. Zhong, “Fabrication of Magnetic Core@Shell Fe Oxide@Au Nanoparticles for Interfacial Bioactivity and Bio-separation,” Langmuir 23(17), 9050–9056 (2007).
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White, J. S.

J. A. Schuller, E. S. Barnard, W. Cai, Y. C. Jun, J. S. White, and M. L. Brongersma, “Plasmonics for extreme light concentration and manipulation,” Nat. Mater. 9(3), 193–204 (2010).
[Crossref] [PubMed]

Williams, M. E.

J. L. Lyon, D. A. Fleming, M. B. Stone, P. Schiffer, and M. E. Williams, “Synthesis of Fe Oxide Core/Au Shell Nanoparticles by Iterative Hydroxylamine Seeding,” Nano Lett. 4(4), 719–723 (2004).
[Crossref]

Woggon, U.

V. Temnov, G. Armelles, U. Woggon, D. Guzatov, A. Cebollada, A. Garcia-Martin, J. M. Garcia-Martin, T. Thomay, A. Leitenstorfer, and R. Bratschitsch, “Active magneto-plasmonics in hybrid metal–ferromagnet structures,” Nat. Photonics 4(2), 107–111 (2010).
[Crossref]

Wu, X.

L. Chen, J. Gao, W. Xia, S. Zhang, S. Tang, W. Zhang, D. Li, X. Wu, and Y. Du, “Tunable Fano resonance and magneto-optical response in magnetoplasmonic structure fabricated by pure ferromagnetic metals,” Phys. Rev. B 93(21), 214411 (2016).
[Crossref]

Wu, Y.

X. Zhang and Y. Wu, “Effective medium theory for anisotropic metamaterials,” Sci. Rep. 5, 7892 (2015).
[Crossref] [PubMed]

Wunderlich, J.

T. Jungwirth, J. Wunderlich, and K. Olejník, “Spin Hall effect devices,” Nat. Mater. 11(5), 382–390 (2012).
[Crossref] [PubMed]

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G. A. Wurtz, W. Hendren, R. Pollard, R. Atkinson, L. Le Guyader, A. Kirilyuk, T. Rasing, I. I. Smolyaninov, and A. Zayats, “Controlling optical transmission through magneto-plasmonic crystals with an external magnetic field,” New J. Phys. 10(10), 105012 (2008).
[Crossref]

Xia, W.

L. Chen, J. Gao, W. Xia, S. Zhang, S. Tang, W. Zhang, D. Li, X. Wu, and Y. Du, “Tunable Fano resonance and magneto-optical response in magnetoplasmonic structure fabricated by pure ferromagnetic metals,” Phys. Rev. B 93(21), 214411 (2016).
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Yakovlev, D. R.

V. I. Belotelov, I. A. Akimov, M. Pohl, V. A. Kotov, S. Kasture, A. S. Vengurlekar, A. V. Gopal, D. R. Yakovlev, A. K. Zvezdin, and M. Bayer, “Enhanced magneto-optical effects in magnetoplasmonic crystals,” Nat. Nanotechnol. 6(6), 370–376 (2011).
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P. R. Hammar, B. R. Bennett, M. J. Yang, and M. Johnson, “Observation of Spin Injection at a Ferromagnet-Semiconductor Interface,” Phys. Rev. Lett. 83(1), 203–206 (1999).
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F. Bao, J. F. Li, B. Ren, J. L. Yao, R. A. Gu, and Z. Q. Tian, “Synthesis and Characterization of Au@Co and Au@Ni Core−Shell Nanoparticles and Their Applications in Surface-Enhanced Raman Spectroscopy,” J. Phys. Chem. C 112(2), 345–350 (2008).
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N. Maccaferri, L. Bergamini, M. Pancaldi, M. K. Schmidt, M. Kataja, S. Dijken, N. Zabala, J. Aizpurua, and P. Vavassori, “Anisotropic Nanoantenna-Based Magnetoplasmonic Crystals for Highly Enhanced and Tunable Magneto-Optical Activity,” Nano Lett. 16(4), 2533–2542 (2016).
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G. A. Wurtz, W. Hendren, R. Pollard, R. Atkinson, L. Le Guyader, A. Kirilyuk, T. Rasing, I. I. Smolyaninov, and A. Zayats, “Controlling optical transmission through magneto-plasmonic crystals with an external magnetic field,” New J. Phys. 10(10), 105012 (2008).
[Crossref]

Zhang, S.

L. Chen, J. Gao, W. Xia, S. Zhang, S. Tang, W. Zhang, D. Li, X. Wu, and Y. Du, “Tunable Fano resonance and magneto-optical response in magnetoplasmonic structure fabricated by pure ferromagnetic metals,” Phys. Rev. B 93(21), 214411 (2016).
[Crossref]

Zhang, W.

L. Chen, J. Gao, W. Xia, S. Zhang, S. Tang, W. Zhang, D. Li, X. Wu, and Y. Du, “Tunable Fano resonance and magneto-optical response in magnetoplasmonic structure fabricated by pure ferromagnetic metals,” Phys. Rev. B 93(21), 214411 (2016).
[Crossref]

Zhang, X.

X. Zhang and Y. Wu, “Effective medium theory for anisotropic metamaterials,” Sci. Rep. 5, 7892 (2015).
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Zhong, C. J.

H. Y. Park, M. J. Schadt, L. Wang, I. I. Lim, P. N. Njoki, S. H. Kim, M. Y. Jang, J. Luo, and C. J. Zhong, “Fabrication of Magnetic Core@Shell Fe Oxide@Au Nanoparticles for Interfacial Bioactivity and Bio-separation,” Langmuir 23(17), 9050–9056 (2007).
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Zubritskaya, I.

K. Lodewijks, N. Maccaferri, T. Pakizeh, R. K. Dumas, I. Zubritskaya, J. Akerman, P. Vavassori, and A. Dmitriev, “Magnetoplasmonic Design Rules for Active Magneto-Optics,” Nano Lett. 14(12), 7207–7214 (2014).
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V. I. Belotelov, I. A. Akimov, M. Pohl, V. A. Kotov, S. Kasture, A. S. Vengurlekar, A. V. Gopal, D. R. Yakovlev, A. K. Zvezdin, and M. Bayer, “Enhanced magneto-optical effects in magnetoplasmonic crystals,” Nat. Nanotechnol. 6(6), 370–376 (2011).
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ACS Photonics (2)

N. Maccaferri, X. Inchausti, A. García-Martín, J. C. Cuevas, D. Tripathy, A. O. Adeyeye, and P. Vavassori, “Resonant Enhancement of Magneto-Optical Activity Induced by Surface Plasmon Polariton Modes Coupling in 2D Magnetoplasmonic Crystals,” ACS Photonics 2(12), 1769–1779 (2015).
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B. Caballero, A. García-Martín, and J. C. Cuevas, “Hybrid Magnetoplasmonic Crystals Boost the Performance of Nanohole Arrays as Plasmonic Sensors,” ACS Photonics 3(2), 203–208 (2016).
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Adv. Mater. (1)

J. C. Banthí, D. Meneses-Rodríguez, F. García, M. U. González, A. García-Martín, A. Cebollada, and G. Armelles, “High Magneto-Optical Activity and Low Optical Losses in Metal-Dielectric Au/Co/Au-SiO(2) Magnetoplasmonic Nanodisks,” Adv. Mater. 24(10), OP36–OP41 (2012).
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Adv. Opt. Mat (1)

G. Armelles, A. Cebollada, A. García-Martín, and M. U. González, “Magnetoplasmonics: Combining Magnetic and Plasmonic Functionalities”,” Adv. Opt. Mat 1(1), 10–35 (2013).
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Y. Lee, M. A. Garcia, N. A. Frey Huls, and S. Sun, “Synthetic tuning of the catalytic properties of Au-Fe3O4 nanoparticles,” Angew. Chem. Int. Ed. Engl. 49(7), 1271–1274 (2010).
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H. Y. Feng, F. Luo, D. Meneses-Rodriguez, G. Armelles, and A. Cebollada, “From disk to ring: Aspect ratio control of the magnetoplasmonic response in Au/Co/Au nanostructures fabricated by hole-mask colloidal lithography,” Appl. Phys. Lett. 106(8), 083105 (2015).
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IEEE Trans. Magn. (1)

E. Ferreiro Vila, X. M. Bendana, J. B. González-Díaz, A. García-Martín, J. M. García-Martín, A. Cebollada, G. Armelles, D. Meneses, and E. Muñoz-Sandoval, “Surface plasmon resonance effects in the magneto-optical activity of Ag–Co–Ag trilayers,” IEEE Trans. Magn. 44(11), 3303–3306 (2008).
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D. Regatos, D. Fariña, A. Calle, A. Cebollada, B. Sepúlveda, G. Armelles, and L. M. Lechuga, “Au/Fe/Au multilayer transducers for magneto-optic surface plasmon resonance sensing,” J. Appl. Phys. 108(5), 054502 (2010).
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J. Opt. A, Pure Appl. Opt. (1)

G. Armelles, A. Cebollada, A. García-Martín, J. M. García-Martín, M. U. Gonzalez, J. B. González-Díaz, E. Ferreiro-Vila, and J. F. Torrado, “Magnetoplasmonic nanostructures: systems supporting both plasmonic and magnetic properties,” J. Opt. A, Pure Appl. Opt. 11(11), 114023 (2009).
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F. Bao, J. F. Li, B. Ren, J. L. Yao, R. A. Gu, and Z. Q. Tian, “Synthesis and Characterization of Au@Co and Au@Ni Core−Shell Nanoparticles and Their Applications in Surface-Enhanced Raman Spectroscopy,” J. Phys. Chem. C 112(2), 345–350 (2008).
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C. A. Ross, H. I. Smith, T. Savas, M. Schattenburg, M. Farhoud, M. Hwang, M. Walsh, M. C. Abraham, and R. J. Ram, “Fabrication of patterned media for high density magnetic storage,” J. Vac. Sci. Technol. B 17(6), 3168–3176 (1999).
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Langmuir (1)

H. Y. Park, M. J. Schadt, L. Wang, I. I. Lim, P. N. Njoki, S. H. Kim, M. Y. Jang, J. Luo, and C. J. Zhong, “Fabrication of Magnetic Core@Shell Fe Oxide@Au Nanoparticles for Interfacial Bioactivity and Bio-separation,” Langmuir 23(17), 9050–9056 (2007).
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Nano Lett. (4)

J. L. Lyon, D. A. Fleming, M. B. Stone, P. Schiffer, and M. E. Williams, “Synthesis of Fe Oxide Core/Au Shell Nanoparticles by Iterative Hydroxylamine Seeding,” Nano Lett. 4(4), 719–723 (2004).
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M. Rollinger, P. Thielen, E. Melander, E. Östman, V. Kapaklis, B. Obry, M. Cinchetti, A. García-Martín, M. Aeschlimann, and E. Th. Papaioannou, “Light Localization and Magneto-Optic Enhancement in Ni Antidot Arrays,” Nano Lett. 16(4), 2432–2438 (2016).
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N. Maccaferri, L. Bergamini, M. Pancaldi, M. K. Schmidt, M. Kataja, S. Dijken, N. Zabala, J. Aizpurua, and P. Vavassori, “Anisotropic Nanoantenna-Based Magnetoplasmonic Crystals for Highly Enhanced and Tunable Magneto-Optical Activity,” Nano Lett. 16(4), 2533–2542 (2016).
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K. Lodewijks, N. Maccaferri, T. Pakizeh, R. K. Dumas, I. Zubritskaya, J. Akerman, P. Vavassori, and A. Dmitriev, “Magnetoplasmonic Design Rules for Active Magneto-Optics,” Nano Lett. 14(12), 7207–7214 (2014).
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Nanotechnology (1)

S. Chandra, N. A. Huls, M. H. Phan, S. Srinath, M. A. Garcia, Y. Lee, C. Wang, S. Sun, Ò. Iglesias, and H. Srikanth, “Exchange bias effect in Au-Fe3O4 nanocomposites,” Nanotechnology 25(5), 055702 (2014).
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Nat. Commun. (1)

N. Maccaferri, K. E. Gregorczyk, T. V. A. G. de Oliveira, M. Kataja, S. van Dijken, Z. Pirzadeh, A. Dmitriev, J. Åkerman, M. Knez, and P. Vavassori, “Ultrasensitive and label-free molecular-level detection enabled by light phase control in magnetoplasmonic nanoantennas,” Nat. Commun. 6, 6150 (2015).
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Nat. Mater. (2)

J. A. Schuller, E. S. Barnard, W. Cai, Y. C. Jun, J. S. White, and M. L. Brongersma, “Plasmonics for extreme light concentration and manipulation,” Nat. Mater. 9(3), 193–204 (2010).
[Crossref] [PubMed]

T. Jungwirth, J. Wunderlich, and K. Olejník, “Spin Hall effect devices,” Nat. Mater. 11(5), 382–390 (2012).
[Crossref] [PubMed]

Nat. Nanotechnol. (1)

V. I. Belotelov, I. A. Akimov, M. Pohl, V. A. Kotov, S. Kasture, A. S. Vengurlekar, A. V. Gopal, D. R. Yakovlev, A. K. Zvezdin, and M. Bayer, “Enhanced magneto-optical effects in magnetoplasmonic crystals,” Nat. Nanotechnol. 6(6), 370–376 (2011).
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Nat. Photonics (1)

V. Temnov, G. Armelles, U. Woggon, D. Guzatov, A. Cebollada, A. Garcia-Martin, J. M. Garcia-Martin, T. Thomay, A. Leitenstorfer, and R. Bratschitsch, “Active magneto-plasmonics in hybrid metal–ferromagnet structures,” Nat. Photonics 4(2), 107–111 (2010).
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D. Martín-Becerra, V. V. Temnov, T. Thomay, A. Leitenstorfer, R. Bratschitsch, G. Armelles, A. García-Martín, and M. U. González, “Spectral dependence of the magnetic modulation of surface plasmon polaritons in noble/ferromagnetic/noble metal films,” Phys. Rev. B 86(3), 035118 (2012).
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Figures (6)

Fig. 1
Fig. 1 SEM images of the full-size sample (left) with a scheme of the structure (left inset) and a close-up of one of the arrays (right) with a detail of the nanobars (right inset).
Fig. 2
Fig. 2 Schemes of the experimental set-ups used for (a) Longitudinal MOKE and (b) Surface plasmons resonance using the Kretschmann-Raether configuration.
Fig. 3
Fig. 3 Magnetization curves from the Au + Py bars measured by Kerr technique along the easy axis (a) at the reflected (m = 0) and (b) at the first diffracted (m = 1) beams.
Fig. 4
Fig. 4 Reflectivity spectra measured at the bare Au region and at the Py bars on top the Au film region with the wavevector of the SPR parallel and perpendicular to the axis of the bars.
Fig. 5
Fig. 5 Experimental and simulations of the reflectivity spectra according to (a) the short wavelength and (b) large wavelength approximation as described in the text.
Fig. 6
Fig. 6 Fit of the SPR spectra of (a) bare Au region, and the region of Au + Py bars with the surface plasmon wavevector (b) parallel and (c) perpendicular to the bars axis.

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