Add to ORKGThe optical isolators used to protect semiconductor lasers against optical feedback cannot be integrated. Therefore we propose to fabricate a laser that has a strongly reduced sensitivity to feedback. Simulations show that such a device can be realized by employing a ring laser in which the clockwise and counterclockwise modes are not coupled. To achieve unidirectional lasing, this work proposes to use an intra cavity weak optical isolator based on two phase modulators that are driven 90 degrees out of phase. Simulations show up to 3% of intensity feedback can be tolerated without any distinguishable effect on the laser light
\u3cp\u3eThe lack of integrated optical isolators in standard integrated semiconductor photonics pla...
We experimentally investigate sensitivity to external optical feedback in a modified semiconductor r...
The insensitivity to optical feedback is experimentally measured for a semiconductor ring laser (SRL...
The optical isolators used to protect semiconductor lasersagainst optical feedback cannot be integra...
External optical feedback can severely deteriorate the performance of semiconductor lasers. This pap...
We present a route toward design and fabrication of a conceptually new type of optical feedback inse...
External optical feedback (EOF), caused by the return loss of connected circuits, is well known to h...
Semiconductor lasers are highly susceptible to external optical feedback. Since the optical isolator...
External optical feedback can influence semiconductor laser performance to a great extent. Strong op...
For our recently designed continuous-wave and single-frequency ring laser with intra-cavity isolator...
\u3cp\u3eThe lack of integrated optical isolators in standard integrated semiconductor photonics pla...
We experimentally investigate sensitivity to external optical feedback in a modified semiconductor r...
The insensitivity to optical feedback is experimentally measured for a semiconductor ring laser (SRL...
The optical isolators used to protect semiconductor lasersagainst optical feedback cannot be integra...
External optical feedback can severely deteriorate the performance of semiconductor lasers. This pap...
We present a route toward design and fabrication of a conceptually new type of optical feedback inse...
External optical feedback (EOF), caused by the return loss of connected circuits, is well known to h...
Semiconductor lasers are highly susceptible to external optical feedback. Since the optical isolator...
External optical feedback can influence semiconductor laser performance to a great extent. Strong op...
For our recently designed continuous-wave and single-frequency ring laser with intra-cavity isolator...
\u3cp\u3eThe lack of integrated optical isolators in standard integrated semiconductor photonics pla...
We experimentally investigate sensitivity to external optical feedback in a modified semiconductor r...
The insensitivity to optical feedback is experimentally measured for a semiconductor ring laser (SRL...