Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2003-02-22
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
24 pages. A review article for "Computational Material Science", Elsevier
Scientific paper
We review recent results on many-body effects in the luminescence from semiconductor nanostructures. Many-body luminescence from highly excited quantum-confined structures is conceptually important topic since a new parameter, a level spacing, plays a crucial role. This spacing is not merely a discretization of the bulk luminescence spectrum, as it could seem. The interplay of finite spacing with interactions (even weak) results in a highly nontrivial sequence of emission lines, their heights revealing the many-body correlations in the system. Here the complex structure of the emission spectrum, resulting from the shakeup processes in many-particle (but finite) system, is demonstrated for a confined electron-hole system of a particular geometry, in which the interacting carriers are confined to a ring. For this geometry, the Luttinger liquid theory allows one to exactly calculate the intensities of all many-body spectral lines. The positions of the lines are governed by the relation of the level spacings for electrons and holes. While close to the emission threshold the interactions cause only weak shakeup satellites of the single-particle lines, away from the threshold the discrete luminescence spectrum is completely dominated by the many-body transitions. We describe the Luttinger liquid approach for calculations of optical spectra in finite one-dimensional systems. The calculations are preceded by a detailed review of experimental and theoretical work on many-body luminescence from various infinite systems. We also review the current status of the experimental and theoretical research on quantum nanorings.
Raikh Mikhail E.
Shahbazyan Tigran V.
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