Contributions of vacancies and self-interstitials to self-diffusion in silicon under thermal equilibrium and nonequilibrium conditions

Kube, R.; Bracht, H.; Hüger, Erwin; Schmidt, Harald; Hansen, J. Lundsgaard; Larsen, A. Nylandsted; Ager, Joel W.; Häller, E. E.; Geue, Thomas; Stahn, J.

doi:10.1103/physrevb.88.085206

Cited by 54 publications

(63 citation statements)

References 59 publications

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“…For P doping, no effect is even observed up to 10 19 P cm −3 . Increasing the temperature will decrease the difference between D I and D V [19] and initially also l 0 1 . At higher temperature the sink strength of the dopant atoms will change considerably as dopant-intrinsic point defect pairs become unstable.…”

Section: For 200mentioning

confidence: 97%

Impact of dopants and silicon structure dimensions on {113}‐defect formation during 2 MeV electron irradiation in an UHVEM

Vanhellemont

Anada

Nagase

et al. 2015

Phys. Status Solidi C

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When processing Si nanowire based Tunnel Field Effect Transistors (TFETS's), a significant reduction of B diffusion with decreasing nanowire diameter is observed and attributed to reduced transient enhanced diffusion close to the nanowire surface caused by the recombination and out‐diffusion of excess self‐interstitials. In this study, Ultra High Voltage Electron Microscopy (UHVEM) is used to study in situ the formation of self‐interstitial clusters in nanowire based TFET containing samples prepared by Focused Ion Beam (FIB) thinning. Si nanowires with diameters ranging from 40 to 500 nm are irradiated in an UHVEM using different fluxes of 2 MeV electrons at temperatures between room temperature and 375 °C. A strong dependence of defect formation on nanowire radius and on dopant concentration and type is observed. The UHVEM observations are compared with simulations based on quasi‐chemical reaction rate theory and with two dimensional dopant concentration distributions determined with high‐vacuum Scanning Spreading Resistance Microscopy (SSRM). (© 2015 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)

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Section: For 200mentioning

confidence: 97%

Impact of dopants and silicon structure dimensions on {113}‐defect formation during 2 MeV electron irradiation in an UHVEM

Vanhellemont

Anada

Nagase

et al. 2015

Phys. Status Solidi C

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“…[52][53][54] More recently, experiments on self-diffusion in Ge have been extended to lower temperatures 14 to verify whether the dominant mechanism of self-diffusion changes as in the case of Si. [55][56][57] Utilizing isotopically modulated 70 Ge/ nat Ge multilayer structures, the diffusional intermixing at the 70 Ge/ nat Ge interface was detected down to 429 C by means of neutron reflectometry.…”

Section: Charge States and Energy Levelsmentioning

confidence: 99%

Diffusion ofn-type dopants in germanium

Chroneos¹,

Bracht²

2014

Applied Physics Reviews

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160

114

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“…A well suited technique of tracer deposition in lithium containing solids is the use of isotope heterostructures [30][31][32][33]. There, on top of a bulk crystal or a thin film of a material with natural isotope composition under investigation Li x A (A: arbitrary species or combination of species; x: relative lithium fraction), a material of identical or almost identical chemical composition is deposited, which, however, is enriched with 6 Li.…”

Section: Tracer Methodsmentioning

confidence: 99%

Slow Lithium Transport in Metal Oxides on the Nanoscale

Uhlendorf

Ruprecht

Witt

et al. 2017

Zeitschrift Für Physikalische Chemie

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This article reports on Li self-diffusion in lithium containing metal oxide compounds. Case studies on LiNbO 3 , Li 3 NbO 4 , LiTaO 3 , LiAlO 2 , and LiGaO 2 are presented. The focus is on slow diffusion processes on the nanometer scale investigated by macroscopic tracer methods (secondary ion mass spectrometry, neutron reflectometry) and microscopic methods (nuclear magnetic resonance spectroscopy, conductivity spectroscopy) in comparison. Special focus is on the influence of structural disorder on diffusion.

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Contributions of vacancies and self-interstitials to self-diffusion in silicon under thermal equilibrium and nonequilibrium conditions

Cited by 54 publications

References 59 publications

Impact of dopants and silicon structure dimensions on {113}‐defect formation during 2 MeV electron irradiation in an UHVEM

Impact of dopants and silicon structure dimensions on {113}‐defect formation during 2 MeV electron irradiation in an UHVEM

Diffusion ofn-type dopants in germanium

Slow Lithium Transport in Metal Oxides on the Nanoscale

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