Add to ORKGWe study the Coulomb drag rate for electrons in a double-quantum-well structure taking into account the electron-optical phonon interactions. The full wave vector and frequency dependent random-phase approximation (RPA) at finite temperature is employed to describe the effective interlayer Coulomb interaction. The electron-electron and electron-optical phonon couplings are treated on an equal footing. The electron-phonon mediated interaction contribution is investigated for different layer separations and layer densities. We find that the drag rate at high temperatures (i.e., T ≥ 0.3 EF) is dominated by the coupled plasmon-phonon of the system. Including the local-field effects in an approximate way we estimate the importance of intralayer ...
We calculate the temperature dependence of correlations in coupled quantum wells using an STLS forma...
We calculate the temperature dependence of correlations in coupled quantum wells using an STLS forma...
We study the Coulomb drag rate for electrons in two parallel quantum wires. The double-quantum wire ...
Cataloged from PDF version of article.We study the Coulomb drag rate for electrons in a double-quant...
We study the Coulomb drag rate for electrons in a double-quantum-well structure taking into account ...
Cataloged from PDF version of article.We study the energy-transfer rate for electrons in a double-qu...
We study the energy-transfer rate for electrons in a double-quantum-well structure, where the layers...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
We study the Coulomb drag rate for electrons in a double quantum-wire structure in the presence of d...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
We calculate the temperature dependence of correlations in coupled quantum wells using an STLS forma...
We calculate the temperature dependence of correlations in coupled quantum wells using an STLS forma...
We study the Coulomb drag rate for electrons in two parallel quantum wires. The double-quantum wire ...
Cataloged from PDF version of article.We study the Coulomb drag rate for electrons in a double-quant...
We study the Coulomb drag rate for electrons in a double-quantum-well structure taking into account ...
Cataloged from PDF version of article.We study the energy-transfer rate for electrons in a double-qu...
We study the energy-transfer rate for electrons in a double-quantum-well structure, where the layers...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
We study the Coulomb drag rate for electrons in a double quantum-wire structure in the presence of d...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
At temperatures comparable to the Fermi temperature, we have measured a plasmon enhanced Coulomb dra...
We calculate the temperature dependence of correlations in coupled quantum wells using an STLS forma...
We calculate the temperature dependence of correlations in coupled quantum wells using an STLS forma...
We study the Coulomb drag rate for electrons in two parallel quantum wires. The double-quantum wire ...