1. Fronts in the cubic and quintic complex Ginzburg-Landau equation - Linear fronts in the supercritical case (cubic CGLe) - Normal and retracting fronts in subcritical bifurcations (quintic CGL2) - Spatiotemporal intermittency - Localized states: pulses and holes - Retracting fronts in supercritical Hopf bifurcations - Collapse (finite-time blow up) - Conclusions Work on retracting fronts together with P. Coullet (Chaos, submitted) Benasque, September 2003

9. Have allowed For moving frame Have allowed For moving frame Amplitude- unstable solutions

10. The “Front ODE”

11. Simulation with: The “Front ODEs” (actuallly for all coherent states) The “Front ODEs” (actuallly for all coherent states)

13. c2=c3=2, ß=0.4 µ=0.1 µ=0.2

14. as in real case generates phase gradient Actually very old: Hocking and Stewartson 1972 (prevention of blow up)

21. 3 - S. Popp O. Stiller, E. Kuznetsov LK 1998 No collapse for suffiently large | | and not too large b, because of phase gradient effect

22. c3=15, Initial conditions: small white noise b3=3 b3=1.5 b3=0b3=-2

23. Retracting Fronts and their consequences are a very general and robust phenomenon (other models, far away from threshold!). Only need nonlinear dispersion. Have various important consequences: - basic state absolutely stable for negative  - spatiotemporal intemittency for positive  (no hysteresis in the subcritical case) - localized structures (pulses and holes) - prevention of blow-up: for subcritical bifurcations the relevant solutions may bifurcate supercritically Concluding Remarks