Analysis of a multiple-quantum-dots embedded ring structure for potential optically-controlled quantum switch or spin filter

Abstract: We theoretically study the average current through a ring embedded with multiple quantum dots in each arm subjected to a time-dependent external field. A current resonance band can be observed in a six-quantum-dot system. In the presence of a time-dependent external field, mutual transformation occurs between the resonance band and antiresonance band, indicating an effective optically-controlled quantum switch can be realized in a wider quantum dot’s energy regime. As the Zeeman effect is introduced, the conve… Show more

“…Exciton qubits, − on the other hand, are relatively less explored. While quantum computing with excitons in semiconductor quantum wells and molecular networks has been investigated for decades, ,,− the experimental realization of scalable excitonic quantum gates has remained elusive. A renewed interest in exciton qubits, however, has been recently inspired by advances in the assembly and manipulation of colloidal semiconductor NCs. ,− …”

Quantum Computing with Exciton Qubits in Colloidal Semiconductor Nanocrystals

“…Exciton qubits, − on the other hand, are relatively less explored. While quantum computing with excitons in semiconductor quantum wells and molecular networks has been investigated for decades, ,,− the experimental realization of scalable excitonic quantum gates has remained elusive. A renewed interest in exciton qubits, however, has been recently inspired by advances in the assembly and manipulation of colloidal semiconductor NCs. ,− …”

Quantum Computing with Exciton Qubits in Colloidal Semiconductor Nanocrystals

Electron transport in T-shaped double quantum dot structure

Transport through several four-quantum-dot topological structures