We introduce a novel scheme for dynamic line-by-line pulse shaping with GHz update rates. Four lines of an optical frequency comb source are used to injection-lock four individual VCSEL, which are subsequently electrically modulated at 0.4 to 1GHz through current modulation. This concept could be considered a completely new way of pulse shaping as the light is not simply modified, but rather regenerated with the desired properties. We also discuss an important drawback of line-by-line pulse shapers that ultimately limits the modulation speed capability
Pulse shaping of femtosecond laser pulses has shown great utility across a variety of scientific fie...
[[abstract]]We demonstrate line-by-line pulse shaping of enhanced number of frequency comb lines (~5...
The topic of this proposal is the development of high peak power laser sources with a focus on linea...
We demonstrate pulse-shaping at reconfiguration rates at half the repetition rate of the laser. Inje...
We demonstrate line-by-line pulse shaping of optical comb lines separated by 6: 25 GHz. An array of ...
We demonstrate line-by-line pulse shaping of optical comb lines separated by 6.25 GHz. An array of i...
[[abstract]]Time-multiplexed optical line-by-line pulse shaping with specific application to rapid u...
A 12-channel linear vertical-cavity surface-emitting laser (VCSEL) array emitting at 1540 nm is used...
Dynamic and static optical pulse shaping with line-by-line control is shown, using a 12-channel inje...
Spectral line-by-line shaping is a key enabler towards optical arbitrary waveform generation, which ...
Complex optical pulse shapes are typically generated from ultrashort laser pulses by manipulating th...
[[abstract]]We demonstrate optical processing based on spectral line-by-line pulse shaping of a freq...
Microwave photonics is a discipline which leverages optoelectronics to enhance the generation, trans...
In recent years, driven by metrological applications, there has been significant development in lase...
Pulse shaping gives communications engineers another degree of freedom in designing a link. It holds...
Pulse shaping of femtosecond laser pulses has shown great utility across a variety of scientific fie...
[[abstract]]We demonstrate line-by-line pulse shaping of enhanced number of frequency comb lines (~5...
The topic of this proposal is the development of high peak power laser sources with a focus on linea...
We demonstrate pulse-shaping at reconfiguration rates at half the repetition rate of the laser. Inje...
We demonstrate line-by-line pulse shaping of optical comb lines separated by 6: 25 GHz. An array of ...
We demonstrate line-by-line pulse shaping of optical comb lines separated by 6.25 GHz. An array of i...
[[abstract]]Time-multiplexed optical line-by-line pulse shaping with specific application to rapid u...
A 12-channel linear vertical-cavity surface-emitting laser (VCSEL) array emitting at 1540 nm is used...
Dynamic and static optical pulse shaping with line-by-line control is shown, using a 12-channel inje...
Spectral line-by-line shaping is a key enabler towards optical arbitrary waveform generation, which ...
Complex optical pulse shapes are typically generated from ultrashort laser pulses by manipulating th...
[[abstract]]We demonstrate optical processing based on spectral line-by-line pulse shaping of a freq...
Microwave photonics is a discipline which leverages optoelectronics to enhance the generation, trans...
In recent years, driven by metrological applications, there has been significant development in lase...
Pulse shaping gives communications engineers another degree of freedom in designing a link. It holds...
Pulse shaping of femtosecond laser pulses has shown great utility across a variety of scientific fie...
[[abstract]]We demonstrate line-by-line pulse shaping of enhanced number of frequency comb lines (~5...
The topic of this proposal is the development of high peak power laser sources with a focus on linea...