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Beilstein J. Nanotechnol. 2024, 15, 26–36, doi:10.3762/bjnano.15.3
Figure 1: (a) A view of the matrix of dipole antennas with integrated CEBs. (b) Enlarged view of the receivin...
Figure 2: Frequency response of the two-frequency receiving system based on the matrix of bow-tie antennas wi...
Figure 3: (a) Design of the sample of LSPE VB 210/240 from the SINS1 series. (b) Optical photo of the sample ...
Figure 4: (a) SEM image of the LSPE sample; bow-tie antennas are visible. (b) SEM image where the required el...
Figure 5: I–V characteristics of two receiving structures of a sample receiving system from the LSPE VB 210/2...
Figure 6: Measured frequency responses of two receiving structures of a receiving system prototype from the L...
Figure 7: Noise spectra of a sample receiving system from the LSPE VB 210/240 SINS1 series 240 GHz array. To ...
Beilstein J. Nanotechnol. 2021, 12, 1279–1285, doi:10.3762/bjnano.12.95
Figure 1: The dependence of the critical current (black dots) and the characteristic length of the Josephson ...
Figure 2: IVCs of a Josephson junction without an MW signal (blue dots), under the action of an external sign...
Figure 3: The dependence of the first Shapiro step amplitude on the temperature for 72 and 265 GHz radiation ...
Figure 4: max ΔI1 as function of Fmw at various temperatures. The dotted lines mark the position of the two f...
Figure 5: The first Shapiro step as function of Pmw at three temperatures and under a signal at 72 GHz (upper...