We calculate the coherence times and critical feedback rates for a coherence collapsed single-mode semiconductor laser with external optical feedback. We show that, in contrast to what is suggested by certain numerical simulations, coherence collapse need not disappear when the linewidth enhancement parameter would vanish.</p
Semiconductor lasers with time-delayed optical feedback display a wide range of dynamical regimes, w...
Semiconductor lasers are becoming increasingly more important; both in industrial applications and a...
Semiconductor lasers are becoming increasingly more important; both in industrial applications and a...
We calculate the coherence times and critical feedback rates for a coherence collapsed single-mode s...
We calculate the coherence times and critical feedback rates for a coherence collapsed single-mode s...
We calculate the coherence times and critical feedback rates for a coherence collapsed single-mode s...
\u3cp\u3eWe calculate the coherence times and critical feedback rates for a coherence collapsed sing...
\u3cp\u3eLine broadening up to 25 GHz in a single-mode semiconductor laser with relatively strong op...
A theoretical analysis is presented of the coherence collapsed state for a single-mode semiconductor...
\u3cp\u3eA theoretical analysis is presented of the coherence collapsed state for a single-mode semi...
In nearly every application of semiconductor lasers some externally reflected light is coupled back ...
In nearly every application of semiconductor lasers some externally reflected light is coupled back ...
\u3cp\u3eIn nearly every application of semiconductor lasers some externally reflected light is coup...
We measure the time-resolved probability distribution of the light emitted by a semiconductor laser ...
The nonlinear dynamics of a semiconductor laser with coherent, as compared to incoherent, delayed op...
Semiconductor lasers with time-delayed optical feedback display a wide range of dynamical regimes, w...
Semiconductor lasers are becoming increasingly more important; both in industrial applications and a...
Semiconductor lasers are becoming increasingly more important; both in industrial applications and a...
We calculate the coherence times and critical feedback rates for a coherence collapsed single-mode s...
We calculate the coherence times and critical feedback rates for a coherence collapsed single-mode s...
We calculate the coherence times and critical feedback rates for a coherence collapsed single-mode s...
\u3cp\u3eWe calculate the coherence times and critical feedback rates for a coherence collapsed sing...
\u3cp\u3eLine broadening up to 25 GHz in a single-mode semiconductor laser with relatively strong op...
A theoretical analysis is presented of the coherence collapsed state for a single-mode semiconductor...
\u3cp\u3eA theoretical analysis is presented of the coherence collapsed state for a single-mode semi...
In nearly every application of semiconductor lasers some externally reflected light is coupled back ...
In nearly every application of semiconductor lasers some externally reflected light is coupled back ...
\u3cp\u3eIn nearly every application of semiconductor lasers some externally reflected light is coup...
We measure the time-resolved probability distribution of the light emitted by a semiconductor laser ...
The nonlinear dynamics of a semiconductor laser with coherent, as compared to incoherent, delayed op...
Semiconductor lasers with time-delayed optical feedback display a wide range of dynamical regimes, w...
Semiconductor lasers are becoming increasingly more important; both in industrial applications and a...
Semiconductor lasers are becoming increasingly more important; both in industrial applications and a...
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