Analysis of point-contact Andreev reflection spectra in spin polarization measurements

Woods, G. T.; Soulen, R. J.; Mazin, I. I.; Nadgorny, B.; Osofsky, M. S.; Sanders, J.; Srikanth, H.; Egelhoff, William F.; Datla, R. U.

doi:10.1103/physrevb.70.054416

Cited by 138 publications

(145 citation statements)

References 22 publications

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“…3(a) and 3(b) respectively. The P-Z relationship of an S/F interface always takes a similar form in that high P is associated with low Z and vice versa and the origin of this dependence has been widely discussed in the literature [28][29][30][31][32] . The 'intrinsic' polarization is usually obtained by extrapolating a P-Z plot to low Z -although not usually to Z = 0 29 because Z also includes the effect of Fermi velocity mismatch between the S/F materials 33 .…”

Section: Figurementioning

confidence: 99%

Evidence for spin mixing in holmium thin film and crystal samples

et al. 2011

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In a number of recent experiments, holmium has been shown to promote spin triplet pairing when in proximity to a spin singlet superconductor. The condition for the support of spin triplet pairing is that the ferromagnet should have an inhomogeneous magnetic state at the interface with the superconductor. Here we use Andreev reflection spectroscopy to study the properties of single ferromagnet/superconductor interfaces formed of holmium and niobium, as a function of the contact resistance of the junction between them. We find that both single crystal and c-axis oriented thin film holmium show unusual behavior for low junction contact resistance, characteristic of spin mixing type properties, which are thought necessary to underpin spin triplet formation. We also explore whether this signature is observed when the junction is formed of Ni 19 Pd 81 and niobium.

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Section: Figurementioning

confidence: 99%

Evidence for spin mixing in holmium thin film and crystal samples

et al. 2011

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“…Typically, all these models assume that the ferromagnetsuperconductor (FM/SC) interfaces are described by the Dirac's delta potential with a finite transparency that is related to the microscopic properties in a non-trivial way [3]. The importance of this assumption when the spin polarisation is extracted in different transport regimes was discussed in detail by Woods et al [4]. Nonetheless, it should be noted that the Dirac's delta in the BTK model is used to preserve analytical simplicity, and it cannot be regarded as a consequence of various physical phenomena at the real interface, in the general case.…”

Section: Introductionmentioning

confidence: 99%

“…Although the idea of this method is relatively simple with no restriction on the sample geometry, the interpretation of experimental data requires careful analysis [3,4].…”

Section: Introductionmentioning

confidence: 99%

Influence of Barrier Width on Spin-Polarisation Measured by Point Contact Andreev Reflection

Wójcik

Naylor

Wołoszyn

et al. 2010

J Supercond Nov Magn

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A modification of the Blonder-Tinkham-Klapwijk (BTK) model is proposed for the description of the ferromagnet-superconductor interface. Modelling the contact potential with a rectangular barrier, we investigate the influence of the barrier width at the interface on the value of spin polarisation measured by point contact Andreev reflection. Results suggesting that neglecting the width of the barrier at the interface can lead to an overestimation of the spin polarisation using the original BTK model are presented. This effect is particularly strong for low values of polarization and vanishes for high polarisation. The impact on analysis of the experimental data is also discussed.

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“…8) theory, taking into account superconducting proximity, electronic heating, modulation broadening and series resistance, is used for least squares fitting of the experimental data. The algorithm is also based on the extensions by Mazin et al 9 for the case diffusive transport, and the work of Woods et al 10 on the ballistic and diffusive regimes. Fixed closed interval difference norm minimization is used, rather than guess value generalized gradient minimization, for its robustness and only marginally higher computational cost.…”

Section: )mentioning

confidence: 99%

Fermi level spin polarization of polycrystalline thulium by point contact Andreev reflection spectroscopy

Stamenov

Coey

2011

Journal of Applied Physics

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The spin polarization near the Fermi level in bulk polycrystalline ferrimagnetic thulium is investigated by means of point contact Andreev reflection (PCAR), in the temperature interval (1.9–9.2 K). The highest polarization measured is P = 0.41(8), with barrier parameter Z = 0.39(8), proximity region gap of Δ1 = 1.26(5) meV and an elevation of the electronic temperature of ΔTe = 3.3(8) K, for a lattice temperature of T = 2.20(5) K, and a contact conductance of G = 330(5) G0. Both polarization and barrier power are found to be constant within the experimental uncertainties in the entire accessible temperature interval and linearly independent, while the proximity gap was found to obey the standard BCS temperature dependence with a TcGap = 10.2(2) K, higher than the TcGap = 9.2 K of bulk niobium. Despite its low ordering temperature, thulium could be suitable candidate for low critical current spin-transfer-torque demonstrations.

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Analysis of point-contact Andreev reflection spectra in spin polarization measurements

Cited by 138 publications

References 22 publications

Evidence for spin mixing in holmium thin film and crystal samples

Evidence for spin mixing in holmium thin film and crystal samples

Influence of Barrier Width on Spin-Polarisation Measured by Point Contact Andreev Reflection

Fermi level spin polarization of polycrystalline thulium by point contact Andreev reflection spectroscopy

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