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Beilstein J. Nanotechnol. 2016, 7, 1543–1555, doi:10.3762/bjnano.7.148
Figure 1: Numerical simulation of an oscillating cold-atom tip in a harmonic potential of fundamental period T...
Figure 2: Numerical simulation of an oscillating cold-atom tip in an anharmonic potential of fundamental peri...
Figure 3: Center-of-mass oscillation of a cold-atom tip in an anharmonic potential with/without particle coll...
Figure 4: Simulated detection signal and its Fourier transform for a detector based on local density probing,...
Figure 5: Simulated detection signal (a) and its Fourier transform (b) for a detector based on local density ...
Figure 6: Detecting cloud dynamics. Using microwave radiation, individual atoms are outcoupled from the cold-...
Figure 7: (a) Detection rate as function of the microwave detuning (spectral response), averaged over three m...
Figure 8: Ion signal during and after the excitation of the cold-atom tip to a center-of-mass oscillation.
Figure 9: Comparison of the measured (red dots) and simulated (blue lines) data for the detection signal, the...
Figure 10: Signal-to-noise ratio (red points) as measured for different outcoupling positions alongside the at...
Figure 11: Comparison of the measured outcoupling rate (red dots) and the simulated rates, as derived from a f...