We propose a new type of hybrid systems formed by conventional semi-conductor nanostructures with the addition of remote insulating layers, where electron-hole interaction is enhanced by combining quantum and dielectric confinement over different length scales. Due to the polarization charges induced by dielectric mismatch at the semiconductor/insulator interfaces, the exciton binding energy can be strongly enhanced. By a novel theoretical scheme, we show that, for realistic structures based on conventional III-V quantum wires, such remote dielectric confinement allows exciton binding at room temperature. (C) 1999 Elsevier Science B.V. All rights reserved.
Strong exciton binding in hybrid GaAs-based nanostructures / Goldoni, Guido; Rossi, F; Molinari, Elisa. - In: PHYSICA. B, CONDENSED MATTER. - ISSN 0921-4526. - STAMPA. - 272:(1999), pp. 518-521. [10.1016/S0921-4526(99)00430-5]
Strong exciton binding in hybrid GaAs-based nanostructures
GOLDONI, Guido;MOLINARI, Elisa
1999
Abstract
We propose a new type of hybrid systems formed by conventional semi-conductor nanostructures with the addition of remote insulating layers, where electron-hole interaction is enhanced by combining quantum and dielectric confinement over different length scales. Due to the polarization charges induced by dielectric mismatch at the semiconductor/insulator interfaces, the exciton binding energy can be strongly enhanced. By a novel theoretical scheme, we show that, for realistic structures based on conventional III-V quantum wires, such remote dielectric confinement allows exciton binding at room temperature. (C) 1999 Elsevier Science B.V. All rights reserved.
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