Polaron states in InAs/GaAs quantum dots: strong electron–phonon coupling regime

We summarize here results of calculations and experiments on electron and valence hole states in a single pair of vertically stacked and electronically coupled InAs self-assembled quantum dots. In perfectly aligned quantum dots one can relate an electron-hole complex to a pair of entangled qubits. T

We have investigated the far infrared magneto-optical transitions in InAs quantum dots. A purely electronic model being unable to account for the experimental data, we have calculated the polaron states and the energies of the dipolar electric transition resulting from the coupling between the mixed

A variational approach is employed to obtain the ground and the first excited state binding energies of an electron bound to a hydrogenic impurity in a polar semiconductor quantum dot (QD) with symmetric parabolic confinement in both two and three-dimensions. We perform calculations for the entire r