Prof Roman Walczak

Demonstration of kilohertz operation of hydrodynamic optical-field-ionized plasma channels

Physical Review Accelerators and Beams American Physical Society 25 (2022) 011301

Authors:

A Alejo, J Cowley, A Picksley, R Walczak, Sm Hooker

Abstract:

We demonstrate experimentally that hydrodynamic optical-field-ionized (HOFI) plasma channels can be generated at kHz-scale pulse repetition rates, in a static gas cell and for an extended period. Using a pump-probe arrangement, we show via transverse interferometry that the properties of two HOFI channels generated 1 ms apart are essentially the same. We demonstrate that HOFI channels can be generated at a mean repetition rate of 0.4 kHz for a period of 6.5 h without degradation of the channel properties, and we determine the fluctuations in the key optical parameters of the channels in this period. Our results suggest that HOFI and conditioned HOFI channels are well suited for future high-repetition rate, multi-GeV plasma accelerator stages.

GeV-scale accelerators driven by plasma-modulated pulses from kilohertz lasers

Physical Review Letters American Physical Society 127 (2021) 184801

Authors:

O Jakobsson, SM Hooker, R Walczak

Abstract:

We describe a new approach for driving GeV-scale plasma accelerators with long laser pulses. We show that the temporal phase of a long, high-energy driving laser pulse can be modulated periodically by copropagating it with a low-amplitude plasma wave driven by a short, low-energy seed pulse. Compression of the modulated driver by a dispersive optic generates a train of short pulses suitable for resonantly driving a plasma accelerator. Modulation of the driver occurs via well-controlled linear processes, as confirmed by good agreement between particle-in-cell (PIC) simulations and an analytic model. PIC simulations demonstrate that a 1.7 J, 1 ps driver, and a 140 mJ, 40 fs seed pulse can accelerate electrons to energies of 0.65 GeV in a plasma channel with an axial density of 2.5 × 1017cm−3. This work opens a route to high repetition-rate, GeV-scale plasma accelerators driven by thin-disk lasers, which can provide joule-scale, picosecond-duration laser pulses at multikilohertz repetition rates and high wall-plug efficiencies.

Demonstration of kilohertz operation of Hydrodynamic Optical-Field-Ionized Plasma Channels

(2021)

Authors:

A Alejo, J Cowley, A Picksley, R Walczak, SM Hooker

GeV-scale accelerators driven by plasma-modulated pulses from kilohertz lasers

(2021)

Authors:

O Jakobsson, SM Hooker, R Walczak

Meter-scale conditioned hydrodynamic optical-field-ionized plasma channels

SPIE, the international society for optics and photonics (2021) 1

Authors:

Simon M Hooker, Aarón Alejo, Christopher Arran, Alexander von Boetticher, Nicolas Bourgeois, Laura Corner, Linus Feder, George Hine, James A Holloway, Oscar Jakobsson, Harry Jones, Jakob Jonnerby, Howard M Milchberg, Alexander Picksley, Lewis R Reid, Aimee J Ross, Robert J Shalloo, Christopher Thornton, Roman Walczak