2013
DOI: 10.1063/1.4827556
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Quantitative mapping of fast voltage pulses in tunnel junctions by plasmonic luminescence

Abstract: Electric double layer effect on observable characteristics of the tunnel current through a bridged electrochemical contact

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Cited by 27 publications
(51 citation statements)
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“…Due to nanometer size of the junction, we use a classical picture where the inelastic tunneling current is represented as a point electric dipole p placed in the junction and radiating at the transition frequency ω. The dipole amplitude is given by the transition matrix elements [13,[15][16][17][18]20,[22][23][24][25]46] or, according to recent theory, by the corresponding spectral components of the quantum noise [47]. This dipole p is located above the NP surface at position r d which is typically set at the middle of the junction, and is oriented along the direction of the tunneling current, i.e., parallel to the tip axis (z axis) when the tip is on the horizontal upper NP face.…”
Section: Resultsmentioning
confidence: 99%
“…Due to nanometer size of the junction, we use a classical picture where the inelastic tunneling current is represented as a point electric dipole p placed in the junction and radiating at the transition frequency ω. The dipole amplitude is given by the transition matrix elements [13,[15][16][17][18]20,[22][23][24][25]46] or, according to recent theory, by the corresponding spectral components of the quantum noise [47]. This dipole p is located above the NP surface at position r d which is typically set at the middle of the junction, and is oriented along the direction of the tunneling current, i.e., parallel to the tip axis (z axis) when the tip is on the horizontal upper NP face.…”
Section: Resultsmentioning
confidence: 99%
“…Since the advent of SPM, many other spectroscopy methods have been employed to locally resolve, for example, the apparent barrier height by measuring the current decay versus tipsample separation (124) or to determine lifetimes of excitations by pump-probe methods (125)(126)(127). Here, noncontact AFM, with its access to the forces acting between the tip and the sample, dramatically extends the spectroscopic possibilities: The atomic scale interaction potentials are measured directly (5, 128) when force-distance curves are integrated; local Kelvin probe force spectroscopy is performed, or surface charges are directly mapped (117), when the interacting forces are minimized with an applied bias.…”
Section: Investigating Electronic and Mechanical Properties Of Moleculesmentioning
confidence: 99%
“…Notably, by assuming = 1 meV (a realistic value for a molecule physisorbed on a surface) we can estimate t to be 26 ns for g = 4 and about an order of magnitude smaller if g = 3, with a current of the order of 1 nA. Since nanosecond resolution has been recently achieved in pump-probe spSTM experiments [29][30][31][32], a verification of our proposed vibroninduced spin relaxation at hybrid interfaces is possible.…”
Section: Transport and Experimental Implicationsmentioning
confidence: 83%
“…This consists in performing time-resolved spin-polarized scanning tunneling microscopy (spSTM) experiments which probe well-defined molecules on a substrate. We will show that the required time resolution is indeed achievable with this technique [29][30][31][32]. The article is organized as follows: First, we introduce the proposed model and we describe the employed theoretical methods (Sec.…”
Section: Introductionmentioning
confidence: 99%