Multistage Accelerating Beams

1. Multistage Accelerating Beams Moti Fridman1, Alessandro Farsi2 and Alexander L. Gaeta2 1School of Engineering, Bar Ilan University, Ramat Gan, 52900, Israel 2School of Applied and Engineering Physics, Cornell University, Ithaca, NY 14853, USA

2. Caustics Menaechmus  ~ 400 BC

3. Accelerating beam of light G. A. Siviloglou et. al. (2007)

4. Accelerating beam in space Mask imposing cubic phase Input beam Lens Accelerating beam

5. Accelerating beam of electrons N. V. Bloch et. al. (2012)

6. Optical processing based on time-space duality Spatial domain x z z diffraction Temporal domain dispersive broadening Spatial diffraction  Dispersive propagation Akhmanov, Sukhorukov, and Chirkin, Sov. Phys. - JETP, 28, 748, (1969). Kolner, IEEE J. Quantum Electron. 30, 1951 (1994).

7. Imaging in space lens quadratic phase shift in space • Imaging achieved by adding a quadratic phase to wavefront.

8. Temporal imaging dispersive elements quadratic phase shift in time • Imaging achieved by adding a quadratic phase to the signal.

9. Accelerating beam in time cubic phase shift in time and a lens dispersion

10. Imposing cubic phase in time • Look for interaction that imparts quadratic phase shift. • Parametric mixing with a quadratic chirped pump D Quadratic dispersion quadratic frequency shift pump pulse

11. Imposing cubic phase in time Pump Diffracting grating

12. Reflecting stairs

13. Accelerating beam in time

14. Multistage accelerating beam Stage 1 idler signal FWM

15. Multistage accelerating beam Stage 2 Stage 1 Idler #2 idler signal FWM FWM

16. Experimental setup

17. Accelerating beam in time

18. Multistage accelerating beam in time

19. Conclusions • Accelerating beam in time. • Multistage acceleration. • More complex dispersion relations. • Space-time equivalent can open a rout for many more novel demonstrations.