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We obtain values of for the electric mode and for the magnetic mode.
Owing to the presence of magnetic (multipole) moments, we refer to this mode as the magnetic mode (the fundamental magnetic mode of the SRR metamaterial is at 1.5 μm wavelength).
For the electric mode, we obtain enhancement factors, while for the magnetic mode significantly higher values are measured.
GR:FS is also very linear, with each level providing a single objective and only additional challenges for, say for killing 15 enemies in Magnetic mode.
Remarkably, we observe that the magnetic mode, characterized by strong contributions of non-radiating higher multipole moments, exhibits stronger PL enhancement than the dipole-like electric mode.
In particular, the main experimental observation that the decay into the magnetic mode happens faster than into the electric mode is very well reproduced by our simple model.
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Xifré-Pérez, E. et al. Mirror-image-induced magnetic modes.
Chae, M. S. et al. Emittance growth due to multipole transverse magnetic modes in an rf gun.
In particular, the broadening for the electric and narrowing for the magnetic modes and the change of line shape for the electric mode are nicely reproduced.
To date, an analysis of the PL emission properties for different metamaterial modes and specifically the control of emission via electric and magnetic modes have not been reported.
In this Letter, we theoretically demonstrate Fano-like interference effects between the fields radiated by the electric and magnetic modes of symmetric nanoparticle trimers.
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