Suppression of zeeman gradients by nuclear polarization in double quantum dots

S. M. Frolov; J. Danon; S. Nadj-Perge; K. Zuo; J. W W Van Tilburg; V. S. Pribiag; J. W G Van Den Berg; E. P A M Bakkers; L. P. Kouwenhoven

doi:10.1103/PhysRevLett.109.236805

Suppression of zeeman gradients by nuclear polarization in double quantum dots

S. M. Frolov, J. Danon, S. Nadj-Perge, K. Zuo, J. W W Van Tilburg, V. S. Pribiag, J. W G Van Den Berg, E. P A M Bakkers, L. P. Kouwenhoven

Physics and Astronomy (Twin Cities)

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18 Scopus citations

Abstract

We use electric dipole spin resonance to measure dynamic nuclear polarization in InAs nanowire quantum dots. The resonance shifts in frequency when the system transitions between metastable high and low current states, indicating the presence of nuclear polarization. We propose that the low and the high current states correspond to different total Zeeman energy gradients between the two quantum dots. In the low current state, dynamic nuclear polarization efficiently compensates the Zeeman gradient due to the g-factor mismatch, resulting in a suppressed total Zeeman gradient. We present a theoretical model of electron-nuclear feedback that demonstrates a fixed point in nuclear polarization for nearly equal Zeeman splittings in the two dots and predicts a narrowed hyperfine gradient distribution.

Original language	English (US)
Article number	236805
Journal	Physical review letters
Volume	109
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevLett.109.236805
State	Published - Dec 5 2012

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title = "Suppression of zeeman gradients by nuclear polarization in double quantum dots",

abstract = "We use electric dipole spin resonance to measure dynamic nuclear polarization in InAs nanowire quantum dots. The resonance shifts in frequency when the system transitions between metastable high and low current states, indicating the presence of nuclear polarization. We propose that the low and the high current states correspond to different total Zeeman energy gradients between the two quantum dots. In the low current state, dynamic nuclear polarization efficiently compensates the Zeeman gradient due to the g-factor mismatch, resulting in a suppressed total Zeeman gradient. We present a theoretical model of electron-nuclear feedback that demonstrates a fixed point in nuclear polarization for nearly equal Zeeman splittings in the two dots and predicts a narrowed hyperfine gradient distribution.",

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AU - Frolov, S. M.

AU - Danon, J.

AU - Nadj-Perge, S.

AU - Zuo, K.

AU - Van Tilburg, J. W W

AU - Pribiag, V. S.

AU - Van Den Berg, J. W G

AU - Bakkers, E. P A M

AU - Kouwenhoven, L. P.

PY - 2012/12/5

Y1 - 2012/12/5

N2 - We use electric dipole spin resonance to measure dynamic nuclear polarization in InAs nanowire quantum dots. The resonance shifts in frequency when the system transitions between metastable high and low current states, indicating the presence of nuclear polarization. We propose that the low and the high current states correspond to different total Zeeman energy gradients between the two quantum dots. In the low current state, dynamic nuclear polarization efficiently compensates the Zeeman gradient due to the g-factor mismatch, resulting in a suppressed total Zeeman gradient. We present a theoretical model of electron-nuclear feedback that demonstrates a fixed point in nuclear polarization for nearly equal Zeeman splittings in the two dots and predicts a narrowed hyperfine gradient distribution.

AB - We use electric dipole spin resonance to measure dynamic nuclear polarization in InAs nanowire quantum dots. The resonance shifts in frequency when the system transitions between metastable high and low current states, indicating the presence of nuclear polarization. We propose that the low and the high current states correspond to different total Zeeman energy gradients between the two quantum dots. In the low current state, dynamic nuclear polarization efficiently compensates the Zeeman gradient due to the g-factor mismatch, resulting in a suppressed total Zeeman gradient. We present a theoretical model of electron-nuclear feedback that demonstrates a fixed point in nuclear polarization for nearly equal Zeeman splittings in the two dots and predicts a narrowed hyperfine gradient distribution.

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Suppression of zeeman gradients by nuclear polarization in double quantum dots

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