Interplay between electrical transport properties of GeMn thin films and Ge substrates

Sircar, N. R.; Ahlers, S.; Majer, C.; Abstreiter, G.; Bougeard, Dominique

doi:10.1103/physrevb.83.125306

Cited by 9 publications

(5 citation statements)

References 30 publications

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“…11 and 12. Less exotic mechanism was suggested by Zhou et al 13 that pointed out that much of the phenomena, in particular nonmonotonous Hall angle, can be explained by parallel conduction of two charge carriers generated by, e.g., two-level Mn acceptors in Ge. Supporting evidence for the two-carrier transport, although in a different geometrical implementation, was demonstrated by Sircar et al 14 that showed that parallel conduction along a doped layer and Ge substrate can generate very large magnetoresistance and non-monotonic Hall effect remarkably similar to the previous GeMn data, also when non-magnetic GeB films were grown on top of Ge substrates. It was thus concluded that spectacular properties of GeMn systems are not a consequence of alloying of magnetic Mn with Ge but result from parallel conduction along thin conducting doped epilayer and thick resistive Ge substrate.…”

Section: Introductionsupporting

confidence: 52%

Components of strong magnetoresistance in Mn implanted Ge

Simons

Gerber

Korenblit

et al. 2014

Journal of Applied Physics

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Strong magnetoresistance reaching thousands of percent and non-monotonic field dependent Hall effect were measured in Mn implanted Ge samples in fields up to 60 T and analyzed in the framework of a two carriers model. The measured Hall effect and temperature dependent zero field resistance can be consistently described by parallel conductance along thick p-type Ge substrate with low concentration of highly mobile carriers and along thin Mn doped Ge layer with low mobility carriers. However, the same model is not sufficient to explain experimentally observed suppression of quadratic field dependence of magnetoresistance at low fields and absence of its saturation at high fields. Two additional mechanisms were identified: a strong quasi-linear magnetoresistance of Ge substrate that dominates the low field range and a nonsaturating "3/2" power law magnetoresistance of the Mn doped Ge layer dominating the high field range. V

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Section: Introductionsupporting

confidence: 52%

Components of strong magnetoresistance in Mn implanted Ge

Simons

Gerber

Korenblit

et al. 2014

Journal of Applied Physics

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“…As shown in figure 5, the slope of the linear B variation decreased upon removing the Pt capping layer. The influence of the Pt layer on the measurement can be evaluated using the following formula derived from a twolayer conduction model [38]:…”

Section: Analysis and Discussionmentioning

confidence: 99%

Spin-charge-coupled transverse resistance in an ambipolar conductor YH₂-based Hall-bar structure with perpendicularly magnetized current-injection electrodes

et al. 2023

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Spin-charge (SC) coupling is crucial in spintronics and the coupling mechanisms can be classiﬁed into bulk characteristic via spin-orbit interaction (SOI) or the interfacial characteristic provided by a junction formed by magnetic and nonmagnetic conductors. The two types of SC couplings account for the transverse resistance (TR) in a planer channel subjected to out-of-plane-polarized spin current injection. This is because interfacial spin-accumulation induces the diﬀusive transport of spin-angular momentum, which is converted into transverse charge accumulation via SOI. We explore the SC coupling characteristics of a lateral junction consisting of (i) a rare-earth transition metal (RE-TM) ferrimagnet with perpendicular magnetic anisotropy and (ii) a compensated metal, YH2, where electrons and holes simultaneously participate in spin and charge transports. This set-up allows us to observe the TR, which mirrors the magnetization of the RE-TM employed as the current-source electrode in the planer Hall-bar structure. The results show that the inverse spin Hall eﬀect contributes signiﬁcantly to the TR. Along with the TR measurement, we formulate a minimal expression of the TR when out-of-plane-polarized electron and hole spin currents are injected from the magnetic electrode. Since this formulation is independent of the details of the SC coupling mechanism, it is applied to interpret the observation result to reveal the SC coupling characteristics of the RE-TM and YH2 set-up.

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“…Nevertheless, many researchers have reported on the superior properties of Ge substrates. Sircar et al described the electron transport properties of Ge substrates with epitaxial p-type GeMn thin films, which gives rise to an effective 2-layer conduction scheme [2].…”

Section: Introductionmentioning

confidence: 99%

Low Temperature Direct Bonding of Ge Chips with DBC Alumina Substrates using Ag Nanotwinned Films

Chen,

Chuang

2023

IJMMME

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Epitaxial Ag nanotwinned films with highly (111)preferred orientation were deposited by magnetron sputtering onto germanium substrates, some with the addition of a Ti layer and application of negative substrate bias. A high density of Ag nanotwins with an average twin spacing of 2.18 nm formed in the Ag columnar structures. Twin boundaries formed along the direction perpendicular to the growth direction of the film. The influences of the Ti interlayer and negative substrate bias on the formation of Ag nanotwins were also examined. The highly (111)-textured thin films had an impressive film surface roughness, as low as 11.2 nm. The (111)-oriented nanotwins provided higher surface diffusivity than did other orientations. The electrical resistivity decreased significantly as more ( 111)oriented nanotwinned structures formed. The bonding experiment was also performed at 200 ℃ for 60 min at a bonding pressure of 20 MPa, and extremely rare voids appeared at the bonding interface. The combination of low surface roughness, rapid diffusivity on the (111)-planes, and lower electrical resistivity present a high possibility of reliable interconnections for future microelectronic technology via direct bonding.

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Interplay between electrical transport properties of GeMn thin films and Ge substrates

Cited by 9 publications

References 30 publications

Components of strong magnetoresistance in Mn implanted Ge

Components of strong magnetoresistance in Mn implanted Ge

Spin-charge-coupled transverse resistance in an ambipolar conductor YH₂-based Hall-bar structure with perpendicularly magnetized current-injection electrodes

Low Temperature Direct Bonding of Ge Chips with DBC Alumina Substrates using Ag Nanotwinned Films

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Interplay between electrical transport properties of GeMn thin films and Ge substrates

Cited by 9 publications

References 30 publications

Components of strong magnetoresistance in Mn implanted Ge

Components of strong magnetoresistance in Mn implanted Ge

Spin-charge-coupled transverse resistance in an ambipolar conductor YH2-based Hall-bar structure with perpendicularly magnetized current-injection electrodes

Low Temperature Direct Bonding of Ge Chips with DBC Alumina Substrates using Ag Nanotwinned Films

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Product

Resources

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Spin-charge-coupled transverse resistance in an ambipolar conductor YH₂-based Hall-bar structure with perpendicularly magnetized current-injection electrodes