Add to ORKGA microscopic theory, that is based on the coupled Maxwell-semiconductor-Bloch equations, is used to investigate the effects of many-body Coulomb interactions in semiconductor laser devices. This paper describes two examples where the many-body effects play important roles. Experimental data supporting the theoretical results are presented
AbstractThe optically excited system of electronic excitations in semiconductor nanostructures is an...
Although semiconductor Bloch equations have been widely used for decades to address ultrafast optica...
Although semiconductor Bloch equations have been widely used for decades to address ultrafast optica...
Major many-body effects that are important for semiconductor laser modeling are summarized. The auth...
Optical and electronic properties of semiconductors heterostructures are analyzed, combining many-bo...
Many-body effects are observed in the threshold properties of selectively oxidized vertical-cavity s...
A microscopic theory for the interaction between semiconductor quantum well structures and laser fie...
A microscopic many-body theory is used to compute the dielectric constant of single quantum wells. T...
A nonequilibrium Green's functions approach is presented for the consistent computation of semicondu...
In this thesis theoretical models for the description of optical properties of semiconductor quantum...
We extend the dressed-atom approach to treat the interaction of a laser field with a semiconductor s...
We extend the dressed-atom approach to treat the interaction of a laser field with a semiconductor s...
A particular difficulty in studying many-body interactions in a solid is the absence of an experimen...
A particular difficulty in studying many-body interactions in a solid is the absence of an experimen...
We consider the effect of the interaction among photoinjected electrons, on the radiative emission s...
AbstractThe optically excited system of electronic excitations in semiconductor nanostructures is an...
Although semiconductor Bloch equations have been widely used for decades to address ultrafast optica...
Although semiconductor Bloch equations have been widely used for decades to address ultrafast optica...
Major many-body effects that are important for semiconductor laser modeling are summarized. The auth...
Optical and electronic properties of semiconductors heterostructures are analyzed, combining many-bo...
Many-body effects are observed in the threshold properties of selectively oxidized vertical-cavity s...
A microscopic theory for the interaction between semiconductor quantum well structures and laser fie...
A microscopic many-body theory is used to compute the dielectric constant of single quantum wells. T...
A nonequilibrium Green's functions approach is presented for the consistent computation of semicondu...
In this thesis theoretical models for the description of optical properties of semiconductor quantum...
We extend the dressed-atom approach to treat the interaction of a laser field with a semiconductor s...
We extend the dressed-atom approach to treat the interaction of a laser field with a semiconductor s...
A particular difficulty in studying many-body interactions in a solid is the absence of an experimen...
A particular difficulty in studying many-body interactions in a solid is the absence of an experimen...
We consider the effect of the interaction among photoinjected electrons, on the radiative emission s...
AbstractThe optically excited system of electronic excitations in semiconductor nanostructures is an...
Although semiconductor Bloch equations have been widely used for decades to address ultrafast optica...
Although semiconductor Bloch equations have been widely used for decades to address ultrafast optica...