Electron-hole imbalance in superconductor/normal-metal mesoscopic structures

Kogan, V. R.; Павловский, В.; Volkov, A. N.

doi:10.1209/epl/i2002-00124-7

Cited by 25 publications

(40 citation statements)

References 23 publications

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“…At high temperatures where it vanishes exponentially, other sources become more important. 10,12,13 However, validity of Eqs. (2) is somewhat restricted, since they are correct only in the linear response and to the first order in the proximity corrections, additionally assuming that the energy gap |∆| of the nearby superconductors satisfies k BT ≪ |∆|.…”

Section: Figmentioning

confidence: 99%

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Peltier effects in Andreev interferometers

Virtanen¹,

Heikkilä²

2007

Phys. Rev. B

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The superconducting proximity effect is known to modify transport properties of hybrid normal--superconducting structures. In addition to changing electrical and thermal transport separately, it alters the thermoelectric effects. Changes to one off-diagonal element $L_{12}$ of the thermoelectric matrix $L$ have previously been studied via the thermopower, but the remaining coefficient $L_{21}$ which is responsible for the Peltier effect has received less attention. We discuss symmetry relations between $L_{21}$ and $L_{12}$ in addition to the Onsager reciprocity, and calculate Peltier coefficients for a specific structure. Similarly as for the thermopower, for finite phase differences of the superconducting order parameter, the proximity effect creates a Peltier effect significantly larger than the one present in purely normal-metal structures. This results from the fact that a nonequilibrium supercurrent carries energy.Comment: 5 pages, 4 figure

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Section: Figmentioning

confidence: 99%

“…in terms of the biases ∆V j = V j −V , ∆T j = T j −T and the modified response coefficients L. The proximityinduced changes in the conductance 8,9,10,11,12,13,14,15,16,17 have recently been investigated both experimentally and theoretically. Behavior of the remaining off-diagonal coefficient L ij 21 has previously been discussed in Ref.…”

mentioning

confidence: 99%

Peltier effects in Andreev interferometers

Virtanen¹,

Heikkilä²

2007

Phys. Rev. B

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“…The thermoemf V th arising in the system at δT = 0 is an integral over energies ǫ from a distribution function f − (ǫ) [12,13,17]. This distribution function called a transverse part of the distribution function in Ref.…”

Section: Model and Basic Assumptionsmentioning

confidence: 99%

“…The function f − obeys a kinetic equation, which being written in notations of Ref. [12,13] has the form…”

Section: Model and Basic Assumptionsmentioning

confidence: 99%

“…However the situation has changed recently. A number of papers has been published in which the results of both experimental [5,6,8] and theoretical [11][12][13][14][15]17] studies are presented. It has been established experimentally that the thermoemf V th in a S-N structure with a superconducting loop also is an oscillating function of the magnetic flux in the loop and the amplitude of oscillations depends on temperature in a non-monotonic way [5,6,8].…”

Section: Introductionmentioning

confidence: 99%

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Long-range thermoelectric effects in mesoscopic superconductor–normal metal structures

Volkov

Павловский

2005

Phys. Rev. B

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We consider a mesoscopic four-terminal superconductor/normal metal (S/N) structure in the presence of a temperature gradient along the N wire. A thermoemf arises in this system even in the absence of the thermoelectric quasiparticle current if the phase difference between the superconductors is not zero. We show that the thermoemf is not small in the case of a negligible Josephson coupling between two superconductors. It is also shown that the thermoelectric voltage has two maxima: one at a low temperature and another at a temperature close to the critical temperature. The obtained temperature dependence of the thermoemf describes qualitatively experimental data.

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Topology‐Controlled Thermopower Oscillations in Multiterminal Andreev Interferometers

Dolgirev

Kalenkov

Zaikin

2018

Physica Rapid Research Ltrs

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We theoretically investigate coherent oscillations of the thermopower S as a function of the magnetic flux Ф in six‐terminal Andreev interferometers. We demonstrate that the thermopower behavior is determined by a number of contributions originating from the Josephson‐ and Aharonov–Bohm‐like effects as well as from electron–hole asymmetry. The relative weight of these contributions depends on the relation between temperature, voltage bias, and an effective Thouless energy of our setup. We particularly emphasize the role of the system topology that may have a dramatic impact on the behavior of S(Ф).

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Electron-hole imbalance in superconductor/normal-metal mesoscopic structures

Cited by 25 publications

References 23 publications

Peltier effects in Andreev interferometers

Peltier effects in Andreev interferometers

Long-range thermoelectric effects in mesoscopic superconductor–normal metal structures

Topology‐Controlled Thermopower Oscillations in Multiterminal Andreev Interferometers

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