Add to ORKGWe investigate a system consisting of multiple ring lasers coupled by a single gain medium. All the ring lasers share a common feedback arm. The output power of an individual laser shows periodic oscillations as a function of time. The periodicity of the oscillation is determined by the ratio of the roundtrip times of the feedback arm and the ring cavity. In the case that two of such ring lasers are coupled, either their oscillation periodicities are synchronized, or the system is bi-stable. In the latter operation regime, the system can act as an optical flip-flop memory whose state be switched by injection of external light. The concept can be extended to multi-state operations; an eight-state optical flip-flop memory is experimentally de...
An all-optical memory with three states is presented. The memory is realized from three coupled ring...
An all-optical memory with three states is presented. The memory is realized from three coupled ring...
We report an all-optical flip-flop that is based on two coupled actively mode-locked fiber ring lase...
We investigate a system consisting of multiple ring lasers coupled by a single gain medium. All the ...
A multi-state optical flip-flop memory based on cascaded lasers is presented. We show that only one ...
A multi-state optical flip-flop memory based on cascaded lasers is presented. We show that only one ...
We present a novel optical flip-flop configuration that consists of two unidirectional ring lasers w...
A multistate optical memory based on serially inter-connected lasers is presented. We show that only...
A multistate optical memory based on serially interconnected lasers is presented. We show that only ...
Abstract—We present a novel optical flip–flop configuration that consists of two unidirectional ring...
We present a novel concept for optical bi-stability that exists in a ring laser with two separate bu...
Optical memories are optical bi(multi-)stable systems whose states can be switched all optically. Ac...
An eight-state optical flip-flop based on coupled unidirectional ring lasers with optical feedback i...
An all-optical memory with three states is presented. The memory is realized from three coupled ring...
An all-optical memory with three states is presented. The memory is realized from three coupled ring...
We report an all-optical flip-flop that is based on two coupled actively mode-locked fiber ring lase...
We investigate a system consisting of multiple ring lasers coupled by a single gain medium. All the ...
A multi-state optical flip-flop memory based on cascaded lasers is presented. We show that only one ...
A multi-state optical flip-flop memory based on cascaded lasers is presented. We show that only one ...
We present a novel optical flip-flop configuration that consists of two unidirectional ring lasers w...
A multistate optical memory based on serially inter-connected lasers is presented. We show that only...
A multistate optical memory based on serially interconnected lasers is presented. We show that only ...
Abstract—We present a novel optical flip–flop configuration that consists of two unidirectional ring...
We present a novel concept for optical bi-stability that exists in a ring laser with two separate bu...
Optical memories are optical bi(multi-)stable systems whose states can be switched all optically. Ac...
An eight-state optical flip-flop based on coupled unidirectional ring lasers with optical feedback i...
An all-optical memory with three states is presented. The memory is realized from three coupled ring...
An all-optical memory with three states is presented. The memory is realized from three coupled ring...
We report an all-optical flip-flop that is based on two coupled actively mode-locked fiber ring lase...