Add to ORKGA multistate optical memory based on serially interconnected lasers is presented. We show that only one of the lasers can lase at a time, thus, the state of the optical memory is determined by the wavelength of the dominant laser. The light from the dominant laser suppresses its neighboring lasers through gain saturation, but still receives amplification by the active element of the suppressed lasers, compensating for coupling losses. This light passes through each of the successive lasers, simultaneously suppressing and being amplified. By this mechanism, all other lasers are suppressed. A five-state optical memory based on this concept is experimentally demonstrated. The contrast ratio between different states is over 30 dB. Dynamic flip-...
We present a novel optical flip-flop configuration that consists of two unidirectional ring lasers w...
Abstract—We present a novel optical flip–flop configuration that consists of two unidirectional ring...
Abstract—We demonstrate the use of a single laser diode as an optical memory element. When continuou...
A multistate optical memory based on serially interconnected lasers is presented. We show that only ...
A multistate optical memory based on serially interconnected lasers is presented. We show that only ...
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 investigate a system consisting of multiple ring lasers coupled by a single gain medium. All the ...
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...
Optical memories are optical bi(multi-)stable systems whose states can be switched all optically. Ac...
We propose a volatile static all-optical memory capable of storing phase information of a slowly-var...
An all-optical memory with three states is presented. The optical memory is realized from three-coup...
We present a novel optical flip-flop configuration that consists of two unidirectional ring lasers w...
Abstract—We present a novel optical flip–flop configuration that consists of two unidirectional ring...
Abstract—We demonstrate the use of a single laser diode as an optical memory element. When continuou...
A multistate optical memory based on serially interconnected lasers is presented. We show that only ...
A multistate optical memory based on serially interconnected lasers is presented. We show that only ...
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 investigate a system consisting of multiple ring lasers coupled by a single gain medium. All the ...
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...
Optical memories are optical bi(multi-)stable systems whose states can be switched all optically. Ac...
We propose a volatile static all-optical memory capable of storing phase information of a slowly-var...
An all-optical memory with three states is presented. The optical memory is realized from three-coup...
We present a novel optical flip-flop configuration that consists of two unidirectional ring lasers w...
Abstract—We present a novel optical flip–flop configuration that consists of two unidirectional ring...
Abstract—We demonstrate the use of a single laser diode as an optical memory element. When continuou...