The relaxation time of a chiral quantum R-L circuit

Bernard Etienne (LPN); Bernard Pla\c{c}ais (LPA); Christian Glattli (LPA; Gwendal F\`eve (LPA); Jean-Marc Berroir (LPA); Julien Gabelli (LPA); Markus B\"uttiker; SPEC); Takis Kontos (LPA); Yong Jin (LPN)

arxiv: cond-mat/0701654 · v2 · submitted 2007-01-26 · ❄️ cond-mat.mes-hall

The relaxation time of a chiral quantum R-L circuit

Julien Gabelli (LPA) , Gwendal F\`eve (LPA) , Takis Kontos (LPA) , Jean-Marc Berroir (LPA) , Bernard Pla\c{c}ais (LPA) , Christian Glattli (LPA , SPEC) , Bernard Etienne (LPN)

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Yong Jin (LPN) Markus B\"uttiker

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classification ❄️ cond-mat.mes-hall

keywords timeadmittancechiralcircuitquantumrelaxationformedhall

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We report on the GHz complex admittance of a chiral one dimensional ballistic conductor formed by edge states in the quantum Hall regime. The circuit consists of a wide Hall bar (the inductor L) in series with a tunable resistor (R) formed by a quantum point contact. Electron interactions between edges are screened by a pair of side gates. Conductance steps are observed on both real and imaginary parts of the admittance. Remarkably, the phase of the admittance is transmission-independent. This shows that the relaxation time of a chiral R-L circuit is resistance independent. A current and charge conserving scattering theory is presented that accounts for this observation with a relaxation time given by the electronic transit time in the c cuit.

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The relaxation time of a chiral quantum R-L circuit

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