Gate-tunable zero-frequency current cross correlations of the quartet state in a voltage-biased three-terminal Josephson junction

Mélin, R.; Sotto, Moise; Feinberg, Denis; Caputo, Jean-Guy; Douçot, Benoît

doi:10.1103/physrevb.93.115436

Cited by 20 publications

(62 citation statements)

References 41 publications

(50 reference statements)

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“…In this sense, our results seem to be in qualitative agreement with Ref. [38], which deals with a three superconducting lead device, while also surpassing it for the following reasons.…”

Section: Discussionsupporting

confidence: 92%

“…In a setup where a single lead is biased, low voltage positive noise crossed correlations were predicted and ascribed to MARs [37]. In a setup consisting of a single quantum dot connected to three terminals, noise crossed correlations were also investigated using perturbative calculations [38] and quartets were shown to have a decreasing noise signal at low subgap voltages for a nonresonant dot, as opposed to the resonant case where a phase-sensitive noise was predicted. The study of out-of-equilibrium noise in multiterminal superconducting junctions in the coherent regime is particularly interesting, as there is still a need to quantify the evolution of current correlations between different terminals, as a function of the phase and the voltage biases.…”

Section: A Historical Perspectivementioning

confidence: 99%

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Theory of nonequilibrium noise in general multiterminal superconducting hybrid devices: Application to multiple Cooper pair resonances

et al. 2020

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We consider the out-of-equilibrium behavior of a general class of mesoscopic devices composed of several superconducting or/and normal metal leads separated by quantum dots. Starting from a microscopic Hamiltonian description, we provide a nonperturbative approach to quantum electronic transport in the tunneling amplitudes between dots and leads: using the equivalent of a path integral formulation, the lead degrees of freedom are integrated out in order to compute both the current and the current correlations (noise) in this class of systems, in terms of the dressed Green's function matrix of the quantum dots. In order to illustrate the efficiency of this formalism, we apply our results to the "all superconducting Cooper pair beam splitter," a device composed of three superconducting leads connected via two quantum dots, where crossed Andreev reflection operates Cooper pair splitting. Commensurate voltage differences between the three leads allow us to obtain expressions for the current and noise as a function of the Keldysh Nambu Floquet dressed Green's function of the dot system. This voltage configuration allows the occurrence of nonlocal processes involving multiple Cooper pairs which ultimately lead to the presence of nonzero DC currents in an out-of-equilibrium situation. We investigate in detail the results for the noise obtained numerically in the specific case of opposite voltages, where the transport properties are dominated by the so called "quartet processes," involving the coherent exchange of two Cooper pairs among all three superconducting terminals. We show that these processes are noiseless in the nonresonant case, and that this property is also observed for other voltage configurations. When the dots are in a resonant regime, the noise characteristics change qualitatively, with the appearance of giant Fano factors.

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“…In this sense, our results seem to be in qualitative agreement with Ref. [38], which deals with a three superconducting lead device, while also surpassing it for the following reasons.…”

Section: Discussionsupporting

confidence: 92%

Section: A Historical Perspectivementioning

confidence: 99%

Theory of nonequilibrium noise in general multiterminal superconducting hybrid devices: Application to multiple Cooper pair resonances

et al. 2020

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“…The nanowires were grown by a gold assisted MBE process, using the well-established vapor-liquid-solid growth technique. Growth was initiated on an un-patterned (100) InAs substrate, where both, single wires and the Y-shape intersections were formed [25]. Devices were fabricated on an oxidized P + -doped Si wafer (with 150nm thick SiO2), with superconducting contacts and local gates made by depositing 5nm/120nm Ti/Al.…”

Section: Methodsmentioning

confidence: 99%

Nonlocal supercurrent of quartets in a three-terminal Josephson junction

Cohen

Ronen

Kang

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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A novel nonlocal supercurrent, carried by quartets, each consisting of four electrons, is expected to appear in a voltage-biased three-terminal Josephson junction. This supercurrent results from a nonlocal Andreev bound state (ABS), formed among three superconducting terminals. While in a two-terminal Josephson junction the usual ABS, and thus the dc Josephson current, exists only in equilibrium, the ABS, which gives rise to the quartet supercurrent, persists in the nonlinear regime. In this work, we report such resonance in a highly coherent three-terminal Josephson junction made in an InAs nanowire in proximity to an aluminum superconductor. In addition to nonlocal conductance measurements, cross-correlation measurements of current fluctuations provided a distinctive signature of the quartet supercurrent. Multiple device geometries had been tested, allowing us to rule out competing mechanisms and to establish the underlying microscopic origin of this coherent nondissipative current.

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“…This is formally similar to the superconducting quantum point contact 68 relevant to break-junction experiments 69 . In our calculations of the current-current cross-correlations in superconducting-QD, the numerical method relies on recursive Green's functions in energy, combined to sparse matrices algorithms, and adapta-tive integration over the spectral parameter 22,28 . The numerical value of the cross-correlations converges towards the exact answer upon increasing the adjustable level of accuracy.…”

Section: Expression Of S Ab (ω)mentioning

confidence: 99%

“…1), this can lead to nonperturbative characterization of the quartet 18,19,25 , multipair or phase-MAR 19,20,26 channels. At present time, separation of the dc-current 26 and the currentcurrent cross-correlations 28 into the different physical channels relies solely on the symmetries with respect to phase or voltage inversion 76 .…”

Section: B Perspectivesmentioning

confidence: 99%

Engineering the Floquet spectrum of superconducting multiterminal quantum dots

et al. 2019

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Here we present a theoretical investigation of the Floquet spectrum in multiterminal quantum dot Josephson junctions biased with commensurate voltages. We first draw an analogy between the electronic band theory and superconductivity which enlightens the time-periodic dynamics of the Andreev bound states. We then show that the equivalent of the Wannier-Stark ladders observed in semiconducting superlattices via photocurrent measurements, appears as specific peaks in the finite frequency current fluctuations of superconducting multiterminal quantum dots. In order to probe the Floquet-Wannier-Stark ladder spectra, we have developed an analytical model relying on the sharpness of the resonances. The charge-charge correlation function is obtained as a factorized form of the Floquet wave-function on the dot and the superconducting reservoir populations. We confirm these findings by Keldysh Green's function calculations, in particular regarding the voltage and frequency dependence of the resonance peaks in the current-current correlations. Our results open up a road-map to quantum correlations and coherence in the Floquet dynamics of superconducting devices.

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Gate-tunable zero-frequency current cross correlations of the quartet state in a voltage-biased three-terminal Josephson junction

Cited by 20 publications

References 41 publications

Theory of nonequilibrium noise in general multiterminal superconducting hybrid devices: Application to multiple Cooper pair resonances

Theory of nonequilibrium noise in general multiterminal superconducting hybrid devices: Application to multiple Cooper pair resonances

Nonlocal supercurrent of quartets in a three-terminal Josephson junction

Engineering the Floquet spectrum of superconducting multiterminal quantum dots

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