Plasma-Wakefield Accelerator Group

Emittance preservation in a plasma-wakefield accelerator

Nature Communications Nature Research 15:1 (2024) 6097

Authors:

CA Lindstrøm, J Beinortaitė, J Björklund Svensson, L Boulton, J Chappell, S Diederichs, B Foster, JM Garland, P González Caminal, G Loisch, F Peña, S Schröder, M Thévenet, S Wesch, M Wing, JC Wood, R D’Arcy, J Osterhoff

Abstract:

Radio-frequency particle accelerators are engines of discovery, powering high-energy physics and photon science, but are also large and expensive due to their limited accelerating fields. Plasma-wakefield accelerators (PWFAs) provide orders-of-magnitude stronger fields in the charge-density wave behind a particle bunch travelling in a plasma, promising particle accelerators of greatly reduced size and cost. However, PWFAs can easily degrade the beam quality of the bunches they accelerate. Emittance, which determines how tightly beams can be focused, is a critical beam quality in for instance colliders and free-electron lasers, but is particularly prone to degradation. We demonstrate, for the first time, emittance preservation in a high-gradient and high-efficiency PWFA while simultaneously preserving charge and energy spread. This establishes that PWFAs can accelerate without degradation—an essential step toward energy boosters in photon science and multistage facilities for compact high-energy particle colliders.

Resonant excitation of plasma waves in a plasma channel

Physical Review Research American Physical Society 6:2 (2024) L022001

Authors:

Aimee Ross, James Chappell, John Van De Wetering, James Cowley, Emily Archer, Nicolas Bourgeois, L Corner, Dr Emerson, Linus Feder, Xj Gu, Oscar Jakobsson, H Jones, Alexander Picksley, L Reid, Wei-Ting Wang, Roman Walczak, Simon Hooker

Abstract:

We demonstrate resonant excitation of a plasma wave by a train of short laser pulses guided in a preformed plasma channel, for parameters relevant to a plasma-modulated plasma accelerator (P-MoPA). We show experimentally that a train of N≈10 short pulses, of total energy ∼1J, can be guided through 110mm long plasma channels with on-axis densities in the range 1017-1018cm-3. The spectrum of the transmitted train is found to be strongly red shifted when the plasma period is tuned to the intratrain pulse spacing. Numerical simulations are found to be in excellent agreement with the measurements and indicate that the resonantly excited plasma waves have an amplitude in the range 3-10GVm-1, corresponding to an accelerator stage energy gain of order 1GeV.

Beam-based commissioning of a novel X-band transverse deflection structure with variable polarization

Physical Review Accelerators and Beams American Physical Society (APS) 27:3 (2024) 032801

Authors:

P González Caminal, F Christie, R D’Arcy, SM Jaster-Merz, R Assmann, F Burkart, B Conrad, H Dinter, M Foese, J Herrmann, M Hoffmann, M Hüning, R Jonas, O Krebs, S Lederer, B Marchetti, D Marx, J Mueller, J Osterhoff, I Peperkorn, M Reukauff, H Schlarb, S Schreiber, G Tews, T Vinatier, M Vogt, A de Z. Wagner, S Wesch, P Craievich, M Bopp, H-H Braun, A Citterio, R Fortunati, R Ganter, T Kleeb, F Marcellini, M Pedrozzi, E Prat, S Reiche, K Rolli, R Sieber, A Grudiev, WL Millar, N Catalan-Lasheras, G McMonagle, S Pitman, V del Pozo Romano, KT Szypula, W Wuensch

All-optical GeV electron bunch generation in a laser-plasma accelerator via truncated-channel injection.

Physical Review Letters American Physical Society 131:24 (2023) 245001

Authors:

A Picksley, J Chappell, E Archer, N Bourgeois, J Cowley, Dr Emerson, L Feder, Xj Gu, O Jakobsson, Aj Ross, W Wang, R Walczak, Sm Hooker

Abstract:

We describe a simple scheme, truncated-channel injection, to inject electrons directly into the wakefield driven by a high-intensity laser pulse guided in an all-optical plasma channel. We use this approach to generate dark-current-free 1.2 GeV, 4.5% relative energy spread electron bunches with 120 TW laser pulses guided in a 110 mm-long hydrodynamic optical-field-ionized plasma channel. Our experiments and particle-in-cell simulations show that high-quality electron bunches were only obtained when the drive pulse was closely aligned with the channel axis, and was focused close to the density down ramp formed at the channel entrance. Start-to-end simulations of the channel formation, and electron injection and acceleration show that increasing the channel length to 410 mm would yield 3.65 GeV bunches, with a slice energy spread ∼5×10^{-4}.

Measurement of jet production in deep inelastic scattering and NNLO determination of the strong coupling at ZEUS

European Physical Journal C Springer Nature 83:11 (2023) 1082

Authors:

I Abt, R Aggarwal, V Aushev, O Behnke, A Bertolin, I Bloch, I Brock, NH Brook, R Brugnera, A Bruni, PJ Bussey, A Caldwell, CD Catterall, J Chwastowski, J Ciborowski, R Ciesielski, AM Cooper-Sarkar, M Corradi, RK Dementiev, S Dusini, J Ferrando, B Foster, E Gallo, D Gangadharan, A Garfagnini, A Geiser, G Grzelak, C Gwenlan, D Hochman, NZ Jomhari, I Kadenko, U Karshon, P Kaur, R Klanner, U Klein, IA Korzhavina, N Kovalchuk, M Kuze, BB Levchenko, A Levy, B Löhr, E Lohrmann, A Longhin, F Lorkowski, E Lunghi, I Makarenko, J Malka, S Masciocchi, K Nagano, JD Nam, Yu Onishchuk, E Paul, I Pidhurskyi, A Polini, M Przybycień, A Quintero, M Ruspa, U Schneekloth, T Schörner-Sadenius, I Selyuzhenkov, M Shchedrolosiev, LM Shcheglova, N Sherrill, IO Skillicorn, W Słomiński, A Solano, L Stanco, N Stefaniuk, B Surrow, K Tokushuku, O Turkot, T Tymieniecka, A Verbytskyi, WAT Wan Abdullah, K Wichmann, M Wing, S Yamada, Y Yamazaki, AF Żarnecki, O Zenaiev