Optically detected single-electron charging in a quantum dot

We report low-temperature conductance measurements in the Coulomb blockade regime on two nominally identical tunnel-coupled quantum dots in parallel defined electrostatically in the two-dimensional electron gas of a GaAs/AlGaAs heterostructure. At low interdot tunnel coupling we find that the conduc

We compare the electrostatics and electron transmission through the quantum dots that have the inlet/outlet constrictions made by (i) split ÿnger gates and (ii) overlaying ÿnger gates. It has been found numerically that the intermode mixing is large in the former case while almost absent in the latt

We present a magneto-optical investigation of neutral and charged few-exciton complexes in individual In0:5Ga0:5As self-assembled quantum dots. The results reveal direct information regarding Coulomb interaction and correlation e ects in dots containing a controlled number of excess electrons (Ne =

We have fabricated a single quantum dot in the two-dimensional electron gas of a free-standing GaAs/AlGaAs heterostructure. Standard processing techniques are used to define the dot on a narrow mesa and selective etching undercuts the device to form a 120 nm thick free-standing beam connected to the