Abstract
The sub-luminal phase velocity of electromagnetic waves in free space is generally unobtainable, being closely linked to forbidden faster than light group velocities. The requirement of sub-luminal phase-velocity in laser-driven particle acceleration schemes imposes a limit on the total acceleration achievable in free space, and necessitates the use of dispersive structures or waveguides for extending the field-particle interaction. We demonstrate a travelling source approach that overcomes the sub-luminal propagation limits. The approach exploits ultrafast optical sources with slow group velocity propagation, and a group-to-phase front conversion through nonlinear optical interaction. The concept is demonstrated with two terahertz generation processes, nonlinear optical rectification and current-surge rectification. We report measurements of longitudinally polarised single-cycle electric fields with phase and group velocity between 0.77c and 1.75c. The ability to scale to multi-megawatt-per-metre field strengths is demonstrated. Our approach paves the way towards the realisation of cheap and compact particle accelerators with femtosecond scale control of particles.
Original language | English |
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Article number | 421 |
Journal | Nature Communications |
Volume | 8 |
Early online date | 4 Sept 2017 |
DOIs | |
Publication status | Published - 2017 |
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Demonstration of sub-luminal propagation of single-cycle terahertz pulses for particle acceleration
Walsh, D. A. (Contributor), Lake, D. S. (Contributor), Snedden, E. W. (Contributor), Cliffe, M. J. (Contributor), Graham, D. M. (Creator) & Jamison, S. P. (Contributor), Mendeley Data, 15 Jun 2017
DOI: 10.17632/5gd9vymhfb.1, https://data.mendeley.com/datasets/5gd9vymhfb
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