Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2005-04-15
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
Scientific paper
We argue that a simple way to bypass reflections at the boundaries of a finite Luttinger liquid (LL) connected to electrodes is to match load and drain impedances to the characteristic impedance of the LL viewed as a mesoscopic transmission line. For an impedance matched LL, this implies that the AC and DC shot noise properties of a finite LL are identical to those of an infinite LL. Even for an impedance mismatched LL, we show by a careful analysis of reflections that the intrinsic infinite LL properties can still be extracted yielding possibly irrational charges for the LL elementary excitations. We improve on existing results for AC shot noise by deriving expressions with explicit dependence on the charges of the fractional states. Most notably these results can be established quite straightforwardly without resort to the Keldysh technique. We apply these arguments to two experimental setups which allow the observation of different sets of fractional quasiparticles: (i) injection of current by a STM tip in the bulk of a LL; (ii) backscattering of current by an impurity. An Appendix reviews pedagogically the 'fractional states picture' of the LL.
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