We employ a nonequilibrium energy balance and carrier rate equation model based on
microscopic semiconductor theory to describe the quantum-dot (QD) laser dynamics under …

We employ a nonequilibrium energy balance and carrier rate equation model based on
microscopic semiconductor theory to describe the quantum-dot (QD) laser dynamics under …

[en] We employ a nonequilibrium energy balance and carrier rate equation model based on
microscopic semiconductor theory to describe the quantum-dot (QD) laser dynamics under …

We employ a nonequilibrium energy balance and carrier rate equation model based on
microscopic semiconductor theory to describe the quantum-dot (QD) laser dynamics under …

We employ a nonequilibrium energy balance and carrier rate equation model based on
microscopic semiconductor theory to describe the quantum-dot (QD) laser dynamics under …

We employ a nonequilibrium energy balance and carrier rate equation model based on
microscopic semiconductor theory to describe the quantum-dot (QD) laser dynamics under …

Feedback and injection locking instabilities in quantum-dot lasers: a microscopically based
bifurcation analysis | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ …

We employ a nonequilibrium energy balance and carrier rate equation model based on
microscopic semiconductor theory to describe the quantum-dot (QD) laser dynamics under …

We employ a nonequilibrium energy balance and carrier rate equation model based on
microscopic semiconductor theory to describe the quantum-dot (QD) laser dynamics under …

We employ a nonequilibrium energy balance and carrier rate equation model based on
microscopic semiconductor theory to describe the quantum-dot (QD) laser dynamics under …