Megahertz-compatible angular streaking with few-femtosecond resolution at x-ray free-electron lasers

R. Heider; M. S. Wagner; N. Hartmann; M. Ilchen; J. Buck; G. Hartmann; V. Shirvanyan; A. O. Lindahl; J. Grünert; J. Krzywinski; J. Liu; M. Ossiander; A. A. Lutman; T. Maxwell; A. A. Miahnahri; S. P. Moeller; M. Planas; J. Robinson; J. Viefhaus; T. Feurer; R. Kienberger; R. N. Coffee; W. Helml

doi:10.1103/PhysRevA.100.053420

Megahertz-compatible angular streaking with few-femtosecond resolution at x-ray free-electron lasers

R. Heider, M. S. Wagner, N. Hartmann, M. Ilchen, J. Buck, G. Hartmann, V. Shirvanyan, A. O. Lindahl, J. Grünert, J. Krzywinski, J. Liu, M. Ossiander, A. A. Lutman, T. Maxwell, A. A. Miahnahri, S. P. Moeller, M. Planas, J. Robinson, J. Viefhaus, T. FeurerR. Kienberger, R. N. Coffee, W. Helml

Research output: Contribution to journal › Article › peer-review

Abstract

Highly brilliant, coherent, femtosecond x-ray pulses delivered by free-electron lasers (FELs) constitute one of the pillars of modern ultrafast science. Next generation FEL facilities provide up to megahertz repetition rates and pulse durations down to the attosecond regime utilizing self-amplification of spontaneous emission. However, the stochastic nature of this generation mechanism demands single-shot pulse characterization to perform meaningful experiments. Here we demonstrate a fast yet robust online analysis technique capable of megahertz-rate mapping of the temporal intensity structure and arrival time of x-ray FEL pulses with few-femtosecond resolution. We performed angular streaking measurements of both neon photo- and Auger electrons and show their applicability for a direct time-domain feedback system during ongoing experiments. The fidelity of the real-time pulse characterization algorithm is corroborated by resolving isolated x-ray pulses and double pulse trains with few-femtosecond substructure, thus paving the way for x-ray-pump-x-ray-probe FEL science at repetition rates compatible with the demands of LCLS-II and European XFEL.

Original language	English
Article number	053420
Journal	Physical Review A
Volume	100
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevA.100.053420
Publication status	Published - 25 Nov 2019
Externally published	Yes

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

Fields of Expertise

Advanced Materials Science

Access to Document

10.1103/PhysRevA.100.053420

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Heider, R., Wagner, M. S., Hartmann, N., Ilchen, M., Buck, J., Hartmann, G., Shirvanyan, V., Lindahl, A. O., Grünert, J., Krzywinski, J., Liu, J., Ossiander, M., Lutman, A. A., Maxwell, T., Miahnahri, A. A., Moeller, S. P., Planas, M., Robinson, J., Viefhaus, J., ... Helml, W. (2019). Megahertz-compatible angular streaking with few-femtosecond resolution at x-ray free-electron lasers. Physical Review A, 100(5), Article 053420. https://doi.org/10.1103/PhysRevA.100.053420

Heider, R, Wagner, MS, Hartmann, N, Ilchen, M, Buck, J, Hartmann, G, Shirvanyan, V, Lindahl, AO, Grünert, J, Krzywinski, J, Liu, J, Ossiander, M, Lutman, AA, Maxwell, T, Miahnahri, AA, Moeller, SP, Planas, M, Robinson, J, Viefhaus, J, Feurer, T, Kienberger, R, Coffee, RN & Helml, W 2019, 'Megahertz-compatible angular streaking with few-femtosecond resolution at x-ray free-electron lasers', Physical Review A, vol. 100, no. 5, 053420. https://doi.org/10.1103/PhysRevA.100.053420

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title = "Megahertz-compatible angular streaking with few-femtosecond resolution at x-ray free-electron lasers",

abstract = "Highly brilliant, coherent, femtosecond x-ray pulses delivered by free-electron lasers (FELs) constitute one of the pillars of modern ultrafast science. Next generation FEL facilities provide up to megahertz repetition rates and pulse durations down to the attosecond regime utilizing self-amplification of spontaneous emission. However, the stochastic nature of this generation mechanism demands single-shot pulse characterization to perform meaningful experiments. Here we demonstrate a fast yet robust online analysis technique capable of megahertz-rate mapping of the temporal intensity structure and arrival time of x-ray FEL pulses with few-femtosecond resolution. We performed angular streaking measurements of both neon photo- and Auger electrons and show their applicability for a direct time-domain feedback system during ongoing experiments. The fidelity of the real-time pulse characterization algorithm is corroborated by resolving isolated x-ray pulses and double pulse trains with few-femtosecond substructure, thus paving the way for x-ray-pump-x-ray-probe FEL science at repetition rates compatible with the demands of LCLS-II and European XFEL.",

author = "R. Heider and Wagner, {M. S.} and N. Hartmann and M. Ilchen and J. Buck and G. Hartmann and V. Shirvanyan and Lindahl, {A. O.} and J. Gr{\"u}nert and J. Krzywinski and J. Liu and M. Ossiander and Lutman, {A. A.} and T. Maxwell and Miahnahri, {A. A.} and Moeller, {S. P.} and M. Planas and J. Robinson and J. Viefhaus and T. Feurer and R. Kienberger and Coffee, {R. N.} and W. Helml",

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AU - Heider, R.

AU - Wagner, M. S.

AU - Hartmann, N.

AU - Ilchen, M.

AU - Buck, J.

AU - Hartmann, G.

AU - Shirvanyan, V.

AU - Lindahl, A. O.

AU - Grünert, J.

AU - Krzywinski, J.

AU - Liu, J.

AU - Ossiander, M.

AU - Lutman, A. A.

AU - Maxwell, T.

AU - Miahnahri, A. A.

AU - Moeller, S. P.

AU - Planas, M.

AU - Robinson, J.

AU - Viefhaus, J.

AU - Feurer, T.

AU - Kienberger, R.

AU - Coffee, R. N.

AU - Helml, W.

PY - 2019/11/25

Y1 - 2019/11/25

N2 - Highly brilliant, coherent, femtosecond x-ray pulses delivered by free-electron lasers (FELs) constitute one of the pillars of modern ultrafast science. Next generation FEL facilities provide up to megahertz repetition rates and pulse durations down to the attosecond regime utilizing self-amplification of spontaneous emission. However, the stochastic nature of this generation mechanism demands single-shot pulse characterization to perform meaningful experiments. Here we demonstrate a fast yet robust online analysis technique capable of megahertz-rate mapping of the temporal intensity structure and arrival time of x-ray FEL pulses with few-femtosecond resolution. We performed angular streaking measurements of both neon photo- and Auger electrons and show their applicability for a direct time-domain feedback system during ongoing experiments. The fidelity of the real-time pulse characterization algorithm is corroborated by resolving isolated x-ray pulses and double pulse trains with few-femtosecond substructure, thus paving the way for x-ray-pump-x-ray-probe FEL science at repetition rates compatible with the demands of LCLS-II and European XFEL.

AB - Highly brilliant, coherent, femtosecond x-ray pulses delivered by free-electron lasers (FELs) constitute one of the pillars of modern ultrafast science. Next generation FEL facilities provide up to megahertz repetition rates and pulse durations down to the attosecond regime utilizing self-amplification of spontaneous emission. However, the stochastic nature of this generation mechanism demands single-shot pulse characterization to perform meaningful experiments. Here we demonstrate a fast yet robust online analysis technique capable of megahertz-rate mapping of the temporal intensity structure and arrival time of x-ray FEL pulses with few-femtosecond resolution. We performed angular streaking measurements of both neon photo- and Auger electrons and show their applicability for a direct time-domain feedback system during ongoing experiments. The fidelity of the real-time pulse characterization algorithm is corroborated by resolving isolated x-ray pulses and double pulse trains with few-femtosecond substructure, thus paving the way for x-ray-pump-x-ray-probe FEL science at repetition rates compatible with the demands of LCLS-II and European XFEL.

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Megahertz-compatible angular streaking with few-femtosecond resolution at x-ray free-electron lasers

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