Richard D'Arcy

Matching small β functions using centroid jitter and two beam position monitors

Physical Review Accelerators and Beams American Physical Society (APS) 23:5 (2020) 052802

Authors:

CA Lindstrøm, R D’Arcy, MJ Garland, P Gonzalez, B Schmidt, S Schröder, S Wesch, J Osterhoff

Charge calibration of DRZ scintillation phosphor screens

Journal of Instrumentation IOP Publishing 14:09 (2019) p09025-p09025

Authors:

J-P Schwinkendorf, S Bohlen, JP Couperus Cabadağ, H Ding, A Irman, S Karsch, A Köhler, JM Krämer, T Kurz, S Kuschel, J Osterhoff, LF Schaper, D Schinkel, U Schramm, O Zarini, R D'Arcy

FLASHForward: plasma wakefield accelerator science for high-average-power applications.

Philosophical Transactions of the Royal Society A Royal Society 377:2151 (2019) Article:20180392

Authors:

R D'Arcy, A Aschikhin, S Bohlen, G Boyle, T Brümmer, J Chappell, S Diederichs, Brian Foster, MJ Garland, L Goldberg, P Gonzalez, S Karstensen, A Knetsch, P Kuang, V Libov, K Ludwig, A Martinez De La Ossa, F Marutzky, M Meisel, TJ Mehrling, P Niknejadi, K Põder, P Pourmoussavi, M Quast, J-H Röckemann, L Schaper, B Schmidt, S Schröder, J-P Schwinkendorf, B Sheeran, G Tauscher, S Wesch, M Wing, P Winkler, M Zeng, J Osterhoff

Abstract:

The FLASHForward experimental facility is a high-performance test-bed for precision plasma wakefield research, aiming to accelerate high-quality electron beams to GeV-levels in a few centimetres of ionized gas. The plasma is created by ionizing gas in a gas cell either by a high-voltage discharge or a high-intensity laser pulse. The electrons to be accelerated will either be injected internally from the plasma background or externally from the FLASH superconducting RF front end. In both cases, the wakefield will be driven by electron beams provided by the FLASH gun and linac modules operating with a 10 Hz macro-pulse structure, generating 1.25 GeV, 1 nC electron bunches at up to 3 MHz micro-pulse repetition rates. At full capacity, this FLASH bunch-train structure corresponds to 30 kW of average power, orders of magnitude higher than drivers available to other state-of-the-art LWFA and PWFA experiments. This high-power functionality means FLASHForward is the only plasma wakefield facility in the world with the immediate capability to develop, explore and benchmark high-average-power plasma wakefield research essential for next-generation facilities. The operational parameters and technical highlights of the experiment are discussed, as well as the scientific goals and high-average-power outlook.

Tunable Plasma-Based Energy Dechirper.

Physical review letters 122:3 (2019) 034801

Authors:

R D'Arcy, S Wesch, A Aschikhin, S Bohlen, C Behrens, MJ Garland, L Goldberg, P Gonzalez, A Knetsch, V Libov, A Martinez de la Ossa, M Meisel, TJ Mehrling, P Niknejadi, K Poder, J-H Röckemann, L Schaper, B Schmidt, S Schröder, C Palmer, J-P Schwinkendorf, B Sheeran, MJV Streeter, G Tauscher, V Wacker, J Osterhoff

Abstract:

A tunable plasma-based energy dechirper has been developed at FLASHForward to remove the correlated energy spread of a 681 MeV electron bunch. Through the interaction of the bunch with wakefields excited in plasma the projected energy spread was reduced from a FWHM of 1.31% to 0.33% without reducing the stability of the incoming beam. The experimental results for variable plasma density are in good agreement with analytic predictions and three-dimensional simulations. The proof-of-principle dechirping strength of 1.8  GeV/mm/m significantly exceeds those demonstrated for competing state-of-the-art techniques and may be key to future plasma wakefield-based free-electron lasers and high energy physics facilities, where large intrinsic chirps need to be removed.

FLASHForward X-2: Towards beam quality preservation in a plasma booster

Nuclear Instruments and Methods in Physics Research Section A Accelerators Spectrometers Detectors and Associated Equipment Elsevier 909 (2018) 80-83

Authors:

V Libov, A Aschikhin, J Dale, R D’Arcy, K Ludwig, A Martinez de la Ossa, T Mehrling, J-H Roeckemann, L Schaper, B Schmidt, S Schröder, S Wesch, J Zemella, J Osterhoff