III–V nanowire heterostructures can act as sources of single and entangled photons and are enabling technologies for on-chip applications in future quantum photonic devices. The peculiar geometry of nanowires allows to integrate lattice-mismatched components beyond the limits of planar epilayers and to create radially and axially confined quantum structures. Here, we report the plasma-assisted molecular beam epitaxy growth of thin GaAs/GaAsN/GaAs core–multishell nanowires monolithically integrated on Si (111) substrates, overcoming the challenges caused by the low solubility of N and a high lattice mismatch. The nanowires have a GaAsN shell of 10 nm containing 2.7% N, which reduces the GaAs bandgap drastically by 400 meV. They have a symmetric core–shell structure with sharp boundaries and a defect-free zincblende phase. The high structural quality reflects in their excellent optical properties. Local N% fluctuations and radial confinement give rise to quantum dot-like states in the thin GaAsN shell, which display remarkable single photon emission with a second-order autocorrelation function at zero time delay as low as 0.05 in continuous and in pulsed excitation.
Single photon emitters in thin GaAsN nanowire tubes grown on Si / Denis, Nadine; Sharma, Akant Sagar; Dede, Didem; Nurmamytov, Timur; Cianci, Salvatore; Santangeli, Francesca; Felici, Marco; Boureau, Victor; Polimeni, Antonio; Rubini, Silvia; Fontcuberta I Morral, Anna; De Luca, Marta. - In: ACS NANO. - ISSN 1936-0851. - 2025:(2025), pp. 1-11. [10.1021/acsnano.5c12139]
Single photon emitters in thin GaAsN nanowire tubes grown on Si
Sharma, Akant Sagar;Cianci, Salvatore;Santangeli, Francesca;
2025
Abstract
III–V nanowire heterostructures can act as sources of single and entangled photons and are enabling technologies for on-chip applications in future quantum photonic devices. The peculiar geometry of nanowires allows to integrate lattice-mismatched components beyond the limits of planar epilayers and to create radially and axially confined quantum structures. Here, we report the plasma-assisted molecular beam epitaxy growth of thin GaAs/GaAsN/GaAs core–multishell nanowires monolithically integrated on Si (111) substrates, overcoming the challenges caused by the low solubility of N and a high lattice mismatch. The nanowires have a GaAsN shell of 10 nm containing 2.7% N, which reduces the GaAs bandgap drastically by 400 meV. They have a symmetric core–shell structure with sharp boundaries and a defect-free zincblende phase. The high structural quality reflects in their excellent optical properties. Local N% fluctuations and radial confinement give rise to quantum dot-like states in the thin GaAsN shell, which display remarkable single photon emission with a second-order autocorrelation function at zero time delay as low as 0.05 in continuous and in pulsed excitation.| File | Dimensione | Formato | |
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