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Beilstein J. Nanotechnol. 2015, 6, 686–696, doi:10.3762/bjnano.6.69
Figure 1: Schematic of the hexagonal pattern substrate (a) and four different target units: (b) S42; (c) S0:4...
Figure 2: Extinction efficiency spectra of isolated S42 AgNR with AR = 3.5. The black curve corresponds to th...
Figure 3: Extinction, absorption and scattering efficiencies of the four target units with AR = 3.5 and their...
Figure 4: EF distributions obtained from DDA calculations for AgNR 2D hexagonal arrays of different structure...
Figure 5: The average EFs (a) and the total EFs (b) of AgNR 2D hexagonal arrays with different structures and...
Figure 6: The average EFs (a) and the total EFs (b) of S42 AgNR 2D hexagonal arrays with different ARs, illum...
Figure 7: (a) Extinction efficiency spectra of S42 AgNR 2D hexagonal array with AR ranging from 2.0 to 5.0; (...
Figure 8: The angular dependent EFavg of S42 AgNR 2D hexagonal array with AR = 3.5. The excitation wavelength...
Figure 9: The polarization-dependent EFavg (a) and the corresponding absorption (black), scattering (red) and...
Figure 10: The dependence of EFavg on the gap size along the y-direction in S42 AgNR 2D hexagonal array with A...
Figure 11: The dependence of EFavg on the standard deviation of the gap size along the y-direction in the S42 ...
Figure 12: The dependence of EFavg and extinction, absorption and scattering efficiency factors on the diagona...