Add to ORKGSaturable Absorber (SA) is a key element of any passive mode-locked laser system to provide ultrashort laser system. So far various materials have been proposed that could be used for this purpose. However, the field is still looking for new ways to make the fabrication process easier and cost-effective. Another challenge in testing mode-locked laser systems using various SA samples is the lack of knowledge in preparing these by laser physicists given this is outside their remit of expertise. In this study, we have proposed a novel method to produce these SAs from plastic materials and glycol. Our new method relies upon increase in thickness up to a value where the modulation depth is enough to give stable ultrashort pulses. Although we hav...
Nowadays, ultrafast fiber lasers have gained tremendous interests due to their potential application...
We fabricated tungsten disulfide (WS2) based saturable absorber (SA) and use this to passively mode-...
Abstract: Saturable absorber mirrors (SAMs) are grown by low-temperature solid-source molecular bea...
Ultrafast laser has become central of attraction ever since more and more applications of these puls...
Ultrafast laser has become central of attraction ever since more and more applications of these puls...
Pulse width of pulsed laser determinates their applications. For the long pulse laser with µs or ns ...
Semiconductor saturable absorbers have had a major impact on the field of ultrashort pulse generatio...
Due to the extremely high pulse peak power produced by ultrafast laser and its potential application...
The incorporation of the material-based saturable absorber (SA) to generate mode-locked fiber laser ...
The incorporation of the material-based saturable absorber (SA) to generate mode-locked fiber laser ...
We report the fabrication of novel SU8/SWCNT composite materials as saturable absorbes. The film can...
We report the fabrication of novel SU8/SWCNT composite materials as saturable absorbes. The film can...
Plasmonic materials are able to spatially confine light to a nanometer scale far smaller than the di...
We present semiconductor saturable absorber mirrors (SESAMs) that can potentially support femtosecon...
Cost-efficient, robust and flexible laser systems are vital for a wide-range of applications ranging...
Nowadays, ultrafast fiber lasers have gained tremendous interests due to their potential application...
We fabricated tungsten disulfide (WS2) based saturable absorber (SA) and use this to passively mode-...
Abstract: Saturable absorber mirrors (SAMs) are grown by low-temperature solid-source molecular bea...
Ultrafast laser has become central of attraction ever since more and more applications of these puls...
Ultrafast laser has become central of attraction ever since more and more applications of these puls...
Pulse width of pulsed laser determinates their applications. For the long pulse laser with µs or ns ...
Semiconductor saturable absorbers have had a major impact on the field of ultrashort pulse generatio...
Due to the extremely high pulse peak power produced by ultrafast laser and its potential application...
The incorporation of the material-based saturable absorber (SA) to generate mode-locked fiber laser ...
The incorporation of the material-based saturable absorber (SA) to generate mode-locked fiber laser ...
We report the fabrication of novel SU8/SWCNT composite materials as saturable absorbes. The film can...
We report the fabrication of novel SU8/SWCNT composite materials as saturable absorbes. The film can...
Plasmonic materials are able to spatially confine light to a nanometer scale far smaller than the di...
We present semiconductor saturable absorber mirrors (SESAMs) that can potentially support femtosecon...
Cost-efficient, robust and flexible laser systems are vital for a wide-range of applications ranging...
Nowadays, ultrafast fiber lasers have gained tremendous interests due to their potential application...
We fabricated tungsten disulfide (WS2) based saturable absorber (SA) and use this to passively mode-...
Abstract: Saturable absorber mirrors (SAMs) are grown by low-temperature solid-source molecular bea...