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Evidence of magnetic field quenching of phosphorous-doped silicon quantum dots

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arxiv 1311.4322 v1 pith:O2BWRKN7 submitted 2013-11-18 cond-mat.mes-hall

Evidence of magnetic field quenching of phosphorous-doped silicon quantum dots

classification cond-mat.mes-hall
keywords fieldmagneticquantumconductancedatadotsfieldsquenching
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present data on the electrical transport properties of highly-doped silicon-on-insulator quantum dots under the effect of pulsed magnetic fields up to 48 T. At low field intensities, B<7 T, we observe a strong modification of the conductance due to the destruction of weak localization whereas at higher fields, where the magnetic field length becomes comparable to the effective Bohr radius of phosphorous in silicon, a strong decrease in conductance is demonstrated. Data in the high and low electric field bias regimes are then compared to show that close to the Coulomb blockade edge magnetically-induced quenching to single donors in the quantum dot is achieved at about 40 T.

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