Metal–insulator transition in quantum dot arrays

“…While we only show results for two specific cases here, we emphasize that similar behaviour is found in temperature-dependent studies of other local conductance maxima or minima [42]. We find the amplitude of the logarithmic term to be quite similar in both the metallic and insulating states, and to be largely insensitive to the application of a magnetic field [43]. We also find that the magnitude of this term is larger in arrays of smaller dots and that no evidence for this term is present in measurements performed with the gates of the arrays grounded [43].…”

“…We also find that the magnitude of this term is larger in arrays of smaller dots and that no evidence for this term is present in measurements performed with the gates of the arrays grounded [43]. For these reasons, we have suggested that the logarithmic term results from a confinement-induced enhancement of electron-electron interactions in the arrays [42,43]. While theoretical studies are called for to clarify the origin of this unexpected logarithmic variation, the interesting possibility is that this term provides a novel signature of electroninteraction effects in confined nanostructure devices.…”

“…We find the amplitude of the logarithmic term to be quite similar in both the metallic and insulating states, and to be largely insensitive to the application of a magnetic field [43]. We also find that the magnitude of this term is larger in arrays of smaller dots and that no evidence for this term is present in measurements performed with the gates of the arrays grounded [43]. For these reasons, we have suggested that the logarithmic term results from a confinement-induced enhancement of electron-electron interactions in the arrays [42,43].…”

Signatures of coherent electron transport in open quantum dot arrays

“…While we only show results for two specific cases here, we emphasize that similar behaviour is found in temperature-dependent studies of other local conductance maxima or minima [42]. We find the amplitude of the logarithmic term to be quite similar in both the metallic and insulating states, and to be largely insensitive to the application of a magnetic field [43]. We also find that the magnitude of this term is larger in arrays of smaller dots and that no evidence for this term is present in measurements performed with the gates of the arrays grounded [43].…”

“…We also find that the magnitude of this term is larger in arrays of smaller dots and that no evidence for this term is present in measurements performed with the gates of the arrays grounded [43]. For these reasons, we have suggested that the logarithmic term results from a confinement-induced enhancement of electron-electron interactions in the arrays [42,43]. While theoretical studies are called for to clarify the origin of this unexpected logarithmic variation, the interesting possibility is that this term provides a novel signature of electroninteraction effects in confined nanostructure devices.…”

“…We find the amplitude of the logarithmic term to be quite similar in both the metallic and insulating states, and to be largely insensitive to the application of a magnetic field [43]. We also find that the magnitude of this term is larger in arrays of smaller dots and that no evidence for this term is present in measurements performed with the gates of the arrays grounded [43]. For these reasons, we have suggested that the logarithmic term results from a confinement-induced enhancement of electron-electron interactions in the arrays [42,43].…”

Signatures of coherent electron transport in open quantum dot arrays

Current effects on high magnetic field resonances in a dot array