By Peter W. Hawkes (Ed.)
Advances in Imaging & Electron Physics merges long-running serials--Advances in Electronics & Electron Physics and Advances in Optical & Electron Microscopy . The sequence beneficial properties prolonged articles at the physics of electron units (especially semiconductor devices), particle optics at low and high energies, microlithography, photo technological know-how and electronic picture processing, electromagnetic wave propagation, electron microscopy, and the computing equipment utilized in these kinds of domain names.
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Additional info for Advances in Imaging and Electron Physics, Vol. 107
22 J. P. BIRD, R. AKIS, D. K. FERRY, AND M. STOPA I 0 I I I . I / , , , I , , . , I " " 50 I 100 FREQUENCY (V') FIGURE 16. The Fourier spectrum of the experimental conductance oscillations shown in Fig. 14, reveals a peak at the gate voltage frequency that corresponds to the recurring scars shown in Fig. 15 (see arrow). The inset shows the original, experimental oscillations. C. Zero-Field Magneto-Resistant Peak Another feature that may be observed in the magneto-resistance of open dots is a central peak at zero-field (Fig.
Consequently, we conclude that the selective nature to electron transport inferred from the magneto-transport studies is indeed intrinsic to open dots. 6 GATE VOLTAGE (VOLTS) FIGURE14. 01 K and computed using self-consistent numerical simulations. The dot geometry employed here is shown in the inset. MAGNETO-TRANSPORT AS A PROBE OF ELECTRON DYNAMICS 21 FIGURE 15. Self-consistently computed wavefunction plots, obtained from simulations of the split-gate dot geometry shown in Fig. 14. The plots were obtained at three different gate voltages and the darker regions correspond to enhanced probability density.
Solid circles: 1-pm dot. Open circles. 4-pm dot. 6-pm dot. Lines are intended to guide the eye and additional error bars are omitted for clarity. , 1998). 3. Device-Dependent Variations in Phase Coherence An intriguing feature of Fig. 27 is the absence of a well-defined scaling of the phase-breaking time with dot size. This finding is confirmed by the results of other studies, which reveal considerable variations in phase coherence in the regime of few-mode coupling. For example, in Fig. 28 we show conductance fluctuations measured in two lithographically identical dots, which were patterned on Hall bars with similar characteristics.
Advances in Imaging and Electron Physics, Vol. 107 by Peter W. Hawkes (Ed.)