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Beilstein J. Nanotechnol. 2020, 11, 1757–1763, doi:10.3762/bjnano.11.158
Figure 1: Transmission spectra T = f(λ) of separate amorphous thin films and multilayer HS (1: Ge0.30As0.04S0...
Figure 2: Absorption spectra α = f(hν) of separate amorphous thin films and multilayer HS (1: Ge0.30As0.04S0....
Figure 3: Current–voltage characteristics of the amorphous thin-film HS with a positive voltage applied to th...
Figure 4: Current–voltage characteristics of the amorphous thin-film HS with a negative voltage applied to th...
Figure 5: Photocurrent spectra of separate amorphous thin films and the multilayer HS with a positive voltage...
Figure 6: Photocurrent spectra of separate amorphous thin films and the HS with a negative voltage applied to...
Figure 7: Normalized photocurrent spectra of the multilayer HS with different positive values of the voltage ...
Figure 8: Normalized photocurrent spectra of the multilayer HS with different negative values of the voltage ...
Figure 9: Peak position in the spectral distribution of the photocurrent for the different thin-film structur...
Figure 10: Peak position in the spectral distribution of the photocurrent of amorphous thin-film HS as a funct...
Figure 11: The magnifying power K of the different thin-film structures at positive (1) and at negative (2) po...
Figure 12: The magnifying power K of the amorphous thin-film HS as a function of the applied voltage with posi...