Effect of lasing frequency detuning on the response of a CO2-laser with modulated losses

We demonstrate numerically and experimentally that a slow modulation of cavity detuning in a loss-modulated CO 2 laser can stabilize unstable periodic orbits even when the system remains in a particular dynamical regime for adiabatic changes of the detuning. When the parameter changes faster than the transient response of deformation of the original periodic attractor, the system can evolve toward an unstable periodic orbit.

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Dynamic Stabilization of Unstable Periodic Orbits in a CO₂ Laser by Slow Modulation of Cavity Detuning

Pisarchik

Corbalán

Chizhevsky

et al. 1998

Int. J. Bifurcation Chaos

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Effect of lasing frequency detuning on the response of a CO2-laser with modulated losses

Cited by 1 publication

References 8 publications

Dynamic Stabilization of Unstable Periodic Orbits in a CO₂ Laser by Slow Modulation of Cavity Detuning

Dynamic Stabilization of Unstable Periodic Orbits in a CO₂ Laser by Slow Modulation of Cavity Detuning

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Effect of lasing frequency detuning on the response of a CO2-laser with modulated losses

Cited by 1 publication

References 8 publications

Dynamic Stabilization of Unstable Periodic Orbits in a CO2 Laser by Slow Modulation of Cavity Detuning

Dynamic Stabilization of Unstable Periodic Orbits in a CO2 Laser by Slow Modulation of Cavity Detuning

Contact Info

Product

Resources

About

Dynamic Stabilization of Unstable Periodic Orbits in a CO₂ Laser by Slow Modulation of Cavity Detuning

Dynamic Stabilization of Unstable Periodic Orbits in a CO₂ Laser by Slow Modulation of Cavity Detuning