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Bistability in Kerr lens mode-locked Ti:sapphire lasers
(Elsevier Science, 2001-06)
Femtosecond pulse Ti:sapphire lasers can operate in different ways for the same values of the control parameters. This phenomenon of multistability is explained in a simple way by a theoretical approach using iterative or ...
Frequency doubled and stabilized all-solid-state Ti : sapphire lasers
(Spie-int Society Optical EngineeringBellinghamEUA, 2002)
On control of chaos in the Kerr lens mode locked Ti:Sapphire laser
(Elsevier Science, 2006-04)
In this paper, I present the numerical demonstration of a simple way to reduce the pulse duration of a Kerr lens mode locked Ti:Sapphire laser. The core of the method lies in the low dimensional deterministic chaos that ...
Bistable behavior of a kerr lens mode locked Ti:Sapphire laser
(World Scientific, 2008-06)
Kerr lens mode locked Ti:Sapphire lasers can operate in at least two pulsed modes. Several models were developed with the aim to describe the characteristics of these modes. Those based on iterative maps, can reproduce the ...
Stability and bifurcations in Kerr-lens mode-locked Ti:sapphire lasers
(Elsevier Science, 2000-12)
Kerr-lens or self-mode-locked Ti:sapphire lasers are known to display several modes of operation, depending on the values taken by the system's parameters. The basic observed modes of operation are: continuous wave, mode ...
Harmonic generation in Argon by femtosecond Ti:Sapphire laserX-Ray Lasers 2012
(Springer International Publishing, 2014)
Extreme events in the Ti: Sapphire laser
(Optical Society of America, 2011-11)
We report experimental and theoretical evidence of the existence of extreme value events in the form of scarce and randomly emerging giant pulses in the femtosecond (self-pulsing or Kerr-lens mode-locked) Ti:sapphire laser. ...
External power-enhancement cavity versus intracavity frequency doubling of Ti : sapphire lasers using BIBO
(Optical Soc AmerWashingtonEUA, 2007)
Asynchronous encrypted information transmission with sub-6 fs laser system at 2.12 GHz repetition rate
(Optical Soc AmerWashingtonEUA, 2008)