We demonstrate a new method for controlling diffractive, high-power beam combination, sensing phase errors by analyzing the intensity pattern of uncombined side beams at the output. A square array of eight beams is combined with <0.3% stability and 84.6% efficiency. As the channel count is increased, so does the usable information, enabling scaling to large channel counts without significant slowing of control loop response time, an advantage over single-input algorithms
Practical application of coherent beam combination of multiple fibres necessitates phase identificat...
This work studies algorithms for the dynamic phase control of an array of laser beams. The main inte...
This paper presents a new phase-alignment algorithm for distributed beamforming [1].1 This scheme is...
We demonstrate a new method for controlling diffractive, high-power beam combination, sensing phase ...
We have generated 81 independently controllable beams using a spatial light modulator and combined t...
We develop a rapidly converging algorithm for stabilizing a large channel-count diffractive optical ...
An 8-beam, diffractive coherent beam combiner is phase controlled by a learning algorithm trained wh...
We analyze a new kind of machine learning algorithm designed to feedback stabilize coherently combin...
We demonstrate, to the best of our knowledge, the first two-dimensional diffractive beam combination...
Coherent combination of multiple lasers using an optical phased array (OPA) is an effective way to s...
A theoretical and experimental study of phase-controlled beam combining based on noncollinear freque...
We demonstrate the use of a binary diffractive optical element in a very simple setup to convert the...
In coherent beam combining (phased arrays), control of the relative amplitudes (powers) of array ele...
A Dammann grating is used as a spatial filter for a passive coherent beam combination (CBC) of three...
International audienceA new approach is proposed for the adaptive phase-locking of a set of parallel...
Practical application of coherent beam combination of multiple fibres necessitates phase identificat...
This work studies algorithms for the dynamic phase control of an array of laser beams. The main inte...
This paper presents a new phase-alignment algorithm for distributed beamforming [1].1 This scheme is...
We demonstrate a new method for controlling diffractive, high-power beam combination, sensing phase ...
We have generated 81 independently controllable beams using a spatial light modulator and combined t...
We develop a rapidly converging algorithm for stabilizing a large channel-count diffractive optical ...
An 8-beam, diffractive coherent beam combiner is phase controlled by a learning algorithm trained wh...
We analyze a new kind of machine learning algorithm designed to feedback stabilize coherently combin...
We demonstrate, to the best of our knowledge, the first two-dimensional diffractive beam combination...
Coherent combination of multiple lasers using an optical phased array (OPA) is an effective way to s...
A theoretical and experimental study of phase-controlled beam combining based on noncollinear freque...
We demonstrate the use of a binary diffractive optical element in a very simple setup to convert the...
In coherent beam combining (phased arrays), control of the relative amplitudes (powers) of array ele...
A Dammann grating is used as a spatial filter for a passive coherent beam combination (CBC) of three...
International audienceA new approach is proposed for the adaptive phase-locking of a set of parallel...
Practical application of coherent beam combination of multiple fibres necessitates phase identificat...
This work studies algorithms for the dynamic phase control of an array of laser beams. The main inte...
This paper presents a new phase-alignment algorithm for distributed beamforming [1].1 This scheme is...