Many-body effects in the gain spectra of highly excited quantum-dot lasers

Optical gain spectra are computed for quantum dots under high excitation conditions. where there is a non-negligible two-dimensional carrier density surrounding the dots. Using a screened Hartree-Fock theory to describe the influence of the Coulomb interaction, we find different self-energy shifts for the dot and quantum-well transitions. Furthermore. in contrast to the result for quantum-well and bulk systems. the peak gain at the quantum-dot transition computed including Coulomb effects is reduced from its free carrier value.