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W2950824503 abstract "A semiconductor quantum dot (QD) can generate highly indistinguishable single photons at a high rate. For application in quantum communication and integration in hybrid systems, control of the QD optical properties is essential. Understanding the connection between the optical properties of a QD and the growth process is therefore important. Here, we show for GaAs QDs, grown by infilling droplet-etched nanoholes, that the emission wavelength, the neutral-to-charged exciton splitting, and the diamagnetic shift are strongly correlated with the capture-zone area, an important concept from nucleation theory. We show that the capture-zone model applies to the growth of this system even in the limit of a low QD density in which atoms diffuse over $ensuremath{mu}mathrm{m}$ distances. The strong correlations between the various QD parameters facilitate preselection of QDs for applications with specific requirements on the QD properties; they also suggest that a spectrally narrowed QD distribution will result if QD growth on a regular lattice can be achieved." @default.
W2950824503 created "2019-06-27" @default.
W2950824503 creator A5004968321 @default.
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W2950824503 creator A5082952971 @default.
W2950824503 date "2019-10-03" @default.
W2950824503 modified "2023-10-15" @default.
W2950824503 title "Correlations between optical properties and Voronoi-cell area of quantum dots" @default.
W2950824503 cites W1552953472 @default.
W2950824503 cites W1751292560 @default.
W2950824503 cites W1966109045 @default.
W2950824503 cites W1967253240 @default.
W2950824503 cites W1970795894 @default.
W2950824503 cites W1970936589 @default.
W2950824503 cites W1971471985 @default.
W2950824503 cites W1974846538 @default.
W2950824503 cites W1975262161 @default.
W2950824503 cites W1975769032 @default.
W2950824503 cites W1979073041 @default.
W2950824503 cites W1979245946 @default.
W2950824503 cites W1981413458 @default.
W2950824503 cites W1986003176 @default.
W2950824503 cites W1988628015 @default.
W2950824503 cites W1990653007 @default.
W2950824503 cites W1995105136 @default.
W2950824503 cites W1996378321 @default.
W2950824503 cites W1997381585 @default.
W2950824503 cites W2008242426 @default.
W2950824503 cites W2008919730 @default.
W2950824503 cites W2011108835 @default.
W2950824503 cites W2014829281 @default.
W2950824503 cites W2020615347 @default.
W2950824503 cites W2028598797 @default.
W2950824503 cites W2036855546 @default.
W2950824503 cites W2036959049 @default.
W2950824503 cites W2052026465 @default.
W2950824503 cites W2053271172 @default.
W2950824503 cites W2058619766 @default.
W2950824503 cites W2060900989 @default.
W2950824503 cites W2061702000 @default.
W2950824503 cites W2064055029 @default.
W2950824503 cites W2070280255 @default.
W2950824503 cites W2075294056 @default.
W2950824503 cites W2082936810 @default.
W2950824503 cites W2084956598 @default.
W2950824503 cites W2090126357 @default.
W2950824503 cites W2090263607 @default.
W2950824503 cites W2092929437 @default.
W2950824503 cites W2094760631 @default.
W2950824503 cites W2134382113 @default.
W2950824503 cites W2137383683 @default.
W2950824503 cites W2164673934 @default.
W2950824503 cites W2210292534 @default.
W2950824503 cites W2214707481 @default.
W2950824503 cites W2216267904 @default.
W2950824503 cites W2219888606 @default.
W2950824503 cites W2223884576 @default.
W2950824503 cites W2248207861 @default.
W2950824503 cites W2267188140 @default.
W2950824503 cites W2323459778 @default.
W2950824503 cites W2323978025 @default.
W2950824503 cites W2331472532 @default.
W2950824503 cites W239556469 @default.
W2950824503 cites W2464175863 @default.
W2950824503 cites W2501567699 @default.
W2950824503 cites W2545834589 @default.
W2950824503 cites W2559650732 @default.
W2950824503 cites W2562317205 @default.
W2950824503 cites W2562709273 @default.
W2950824503 cites W2581225854 @default.
W2950824503 cites W2585155324 @default.
W2950824503 cites W2591660083 @default.
W2950824503 cites W2680004203 @default.
W2950824503 cites W2741033157 @default.
W2950824503 cites W2755194324 @default.
W2950824503 cites W2762925372 @default.
W2950824503 cites W2763781275 @default.
W2950824503 cites W2769763298 @default.
W2950824503 cites W2781758092 @default.
W2950824503 cites W2883522505 @default.
W2950824503 cites W2883533765 @default.
W2950824503 cites W2896151394 @default.
W2950824503 cites W2914962019 @default.
W2950824503 cites W2922258356 @default.
W2950824503 cites W3100016634 @default.
W2950824503 cites W3102946886 @default.
W2950824503 cites W3104229015 @default.
W2950824503 cites W3106066551 @default.
W2950824503 cites W4251436587 @default.
W2950824503 cites W4299355052 @default.
W2950824503 doi "https://doi.org/10.1103/physrevb.100.155402" @default.
W2950824503 hasPublicationYear "2019" @default.
W2950824503 type Work @default.