Electrical Initialization of Electron and Nuclear Spins in a Single Quantum Dot at Zero Magnetic Field

Fabian Cadiz; Abdelhak Djeffal; Delphine Lagarde; Andrea Balocchi; Bingshan Tao; Bo Xu; Shiheng Liang; Mathieu Stoffel; Xavier Devaux; Henri Jaffres; Jean Marie George; Michel Hehn; Stephane Mangin; Helene Carrere; Xavier Marie; Thierry Amand; Xiufeng Han; Zhanguo Wang; Bernhard Urbaszek; Yuan Lu; Pierre Renucci

doi:10.1021/acs.nanolett.7b05351

Electrical Initialization of Electron and Nuclear Spins in a Single Quantum Dot at Zero Magnetic Field

Fabian Cadiz
, Abdelhak Djeffal
, Delphine Lagarde
, Andrea Balocchi
, Bingshan Tao
, Bo Xu
, Shiheng Liang
, Mathieu Stoffel
, Xavier Devaux
, Henri Jaffres
, Jean Marie George
, Michel Hehn
, Stephane Mangin
, Helene Carrere
, Xavier Marie
, Thierry Amand
, Xiufeng Han
, Zhanguo Wang
, Bernhard Urbaszek
, Yuan Lu

Pierre Renucci

Research output: Contribution to journal › Article › peer-review

Abstract

The emission of circularly polarized light from a single quantum dot relies on the injection of carriers with well-defined spin polarization. Here we demonstrate single dot electroluminescence (EL) with a circular polarization degree up to 35% at zero applied magnetic field. The injection of spin-polarized electrons is achieved by combining ultrathin CoFeB electrodes on top of a spin-LED device with p-type InGaAs quantum dots in the active region. We measure an Overhauser shift of several microelectronvolts at zero magnetic field for the positively charged exciton (trion X⁺) EL emission, which changes sign as we reverse the injected electron spin orientation. This is a signature of dynamic polarization of the nuclear spins in the quantum dot induced by the hyperfine interaction with the electrically injected electron spin. This study paves the way for electrical control of nuclear spin polarization in a single quantum dot without any external magnetic field.

Original language	English
Pages (from-to)	2381-2386
Number of pages	6
Journal	Nano Letters
Volume	18
Issue number	4
DOIs	https://doi.org/10.1021/acs.nanolett.7b05351
Publication status	Published - 11 Apr 2018
Externally published	Yes

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10.1021/acs.nanolett.7b05351

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Cadiz, F., Djeffal, A., Lagarde, D., Balocchi, A., Tao, B., Xu, B., Liang, S., Stoffel, M., Devaux, X., Jaffres, H., George, J. M., Hehn, M., Mangin, S., Carrere, H., Marie, X., Amand, T., Han, X., Wang, Z., Urbaszek, B., ... Renucci, P. (2018). Electrical Initialization of Electron and Nuclear Spins in a Single Quantum Dot at Zero Magnetic Field. Nano Letters, 18(4), 2381-2386. https://doi.org/10.1021/acs.nanolett.7b05351

@article{4221673caaeb437d8c2b9d0cf882f691,

title = "Electrical Initialization of Electron and Nuclear Spins in a Single Quantum Dot at Zero Magnetic Field",

abstract = "The emission of circularly polarized light from a single quantum dot relies on the injection of carriers with well-defined spin polarization. Here we demonstrate single dot electroluminescence (EL) with a circular polarization degree up to 35\% at zero applied magnetic field. The injection of spin-polarized electrons is achieved by combining ultrathin CoFeB electrodes on top of a spin-LED device with p-type InGaAs quantum dots in the active region. We measure an Overhauser shift of several microelectronvolts at zero magnetic field for the positively charged exciton (trion X+) EL emission, which changes sign as we reverse the injected electron spin orientation. This is a signature of dynamic polarization of the nuclear spins in the quantum dot induced by the hyperfine interaction with the electrically injected electron spin. This study paves the way for electrical control of nuclear spin polarization in a single quantum dot without any external magnetic field.",

author = "Fabian Cadiz and Abdelhak Djeffal and Delphine Lagarde and Andrea Balocchi and Bingshan Tao and Bo Xu and Shiheng Liang and Mathieu Stoffel and Xavier Devaux and Henri Jaffres and George, \{Jean Marie\} and Michel Hehn and Stephane Mangin and Helene Carrere and Xavier Marie and Thierry Amand and Xiufeng Han and Zhanguo Wang and Bernhard Urbaszek and Yuan Lu and Pierre Renucci",

note = "Publisher Copyright: {\textcopyright} 2018 American Chemical Society.",

year = "2018",

month = apr,

day = "11",

doi = "10.1021/acs.nanolett.7b05351",

language = "English",

volume = "18",

pages = "2381--2386",

journal = "Nano Letters",

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number = "4",

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Cadiz, F, Djeffal, A, Lagarde, D, Balocchi, A, Tao, B, Xu, B, Liang, S, Stoffel, M, Devaux, X, Jaffres, H, George, JM, Hehn, M, Mangin, S, Carrere, H, Marie, X, Amand, T, Han, X, Wang, Z, Urbaszek, B, Lu, Y & Renucci, P 2018, 'Electrical Initialization of Electron and Nuclear Spins in a Single Quantum Dot at Zero Magnetic Field', Nano Letters, vol. 18, no. 4, pp. 2381-2386. https://doi.org/10.1021/acs.nanolett.7b05351

TY - JOUR

T1 - Electrical Initialization of Electron and Nuclear Spins in a Single Quantum Dot at Zero Magnetic Field

AU - Cadiz, Fabian

AU - Djeffal, Abdelhak

AU - Lagarde, Delphine

AU - Balocchi, Andrea

AU - Tao, Bingshan

AU - Xu, Bo

AU - Liang, Shiheng

AU - Stoffel, Mathieu

AU - Devaux, Xavier

AU - Jaffres, Henri

AU - George, Jean Marie

AU - Hehn, Michel

AU - Mangin, Stephane

AU - Carrere, Helene

AU - Marie, Xavier

AU - Amand, Thierry

AU - Han, Xiufeng

AU - Wang, Zhanguo

AU - Urbaszek, Bernhard

AU - Lu, Yuan

AU - Renucci, Pierre

PY - 2018/4/11

Y1 - 2018/4/11

N2 - The emission of circularly polarized light from a single quantum dot relies on the injection of carriers with well-defined spin polarization. Here we demonstrate single dot electroluminescence (EL) with a circular polarization degree up to 35% at zero applied magnetic field. The injection of spin-polarized electrons is achieved by combining ultrathin CoFeB electrodes on top of a spin-LED device with p-type InGaAs quantum dots in the active region. We measure an Overhauser shift of several microelectronvolts at zero magnetic field for the positively charged exciton (trion X+) EL emission, which changes sign as we reverse the injected electron spin orientation. This is a signature of dynamic polarization of the nuclear spins in the quantum dot induced by the hyperfine interaction with the electrically injected electron spin. This study paves the way for electrical control of nuclear spin polarization in a single quantum dot without any external magnetic field.

AB - The emission of circularly polarized light from a single quantum dot relies on the injection of carriers with well-defined spin polarization. Here we demonstrate single dot electroluminescence (EL) with a circular polarization degree up to 35% at zero applied magnetic field. The injection of spin-polarized electrons is achieved by combining ultrathin CoFeB electrodes on top of a spin-LED device with p-type InGaAs quantum dots in the active region. We measure an Overhauser shift of several microelectronvolts at zero magnetic field for the positively charged exciton (trion X+) EL emission, which changes sign as we reverse the injected electron spin orientation. This is a signature of dynamic polarization of the nuclear spins in the quantum dot induced by the hyperfine interaction with the electrically injected electron spin. This study paves the way for electrical control of nuclear spin polarization in a single quantum dot without any external magnetic field.

U2 - 10.1021/acs.nanolett.7b05351

DO - 10.1021/acs.nanolett.7b05351

M3 - Article

C2 - 29517243

AN - SCOPUS:85045213447

SN - 1530-6984

VL - 18

SP - 2381

EP - 2386

JO - Nano Letters

JF - Nano Letters

IS - 4

ER -

Electrical Initialization of Electron and Nuclear Spins in a Single Quantum Dot at Zero Magnetic Field

Abstract

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