Progress on the Femto-Slicing project at the synchrotron SOLEIL

P. Prigent; Ph Hollander; M. Labat; M. E. Couprie; J. L. Marlats; C. Laulhé; J. Luning; T. Moreno; P. Morin; A. Nadji; F. Polack; S. Ravy; M. Silly; F. Sirotti

doi:10.1088/1742-6596/425/7/072022

Progress on the Femto-Slicing project at the synchrotron SOLEIL

P. Prigent
, Ph Hollander
, M. Labat
, M. E. Couprie
, J. L. Marlats
, C. Laulhé
, J. Luning
, T. Moreno
, P. Morin
, A. Nadji
, F. Polack
, S. Ravy
, M. Silly
, F. Sirotti

Synchrotron SOLEIL

Résultats de recherche: Contribution à un journal › Article de conférence › Revue par des pairs

Résumé

The aim of the Femto-Slicing project at SOLEIL is to generate 100 fs X-rays pulses on two beamlines, CRISTAL and TEMPO, for pump-probe experiments in the hard and soft X-rays regions. Two fs lasers are currently in operation on TEMPO and CRISTAL for pump-probe experiments on the ps time scale enabling time resolved photoemission and photodiffraction studies. The Femto-Slicing project is based on the fs laser of the CRISTAL beamline, which can be adjusted to deliver 3 mJ pulses of 30 fs duration at 2.5 kHz. The laser beam will be separated in three branches: one delivering about 2 mJ to the modulator Wiggler and the other ones delivering the remaining energy to the TEMPO and CRISTAL experiments. This layout will yield natural synchronization between IR laser pump and X-ray probe pulses, only affected by jitter associated with beam transport. In this paper, we present the current status of the Femto-Slicing project at SOLEIL, with particular emphasis on the expected performance, and the design and construction of the laser beam transport and the diagnostics implementation.

langue originale	Anglais
Numéro d'article	072022
journal	Journal of Physics: Conference Series
Volume	425
Numéro de publication	PART 7
Les DOIs	https://doi.org/10.1088/1742-6596/425/7/072022
état	Publié - 1 janv. 2013
Modification externe	Oui
Evénement	11th International Conference on Synchrotron Radiation Instrumentation, SRI 2012 - Lyon, France Durée: 9 juil. 2012 → 13 juil. 2012

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10.1088/1742-6596/425/7/072022

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title = "Progress on the Femto-Slicing project at the synchrotron SOLEIL",

abstract = "The aim of the Femto-Slicing project at SOLEIL is to generate 100 fs X-rays pulses on two beamlines, CRISTAL and TEMPO, for pump-probe experiments in the hard and soft X-rays regions. Two fs lasers are currently in operation on TEMPO and CRISTAL for pump-probe experiments on the ps time scale enabling time resolved photoemission and photodiffraction studies. The Femto-Slicing project is based on the fs laser of the CRISTAL beamline, which can be adjusted to deliver 3 mJ pulses of 30 fs duration at 2.5 kHz. The laser beam will be separated in three branches: one delivering about 2 mJ to the modulator Wiggler and the other ones delivering the remaining energy to the TEMPO and CRISTAL experiments. This layout will yield natural synchronization between IR laser pump and X-ray probe pulses, only affected by jitter associated with beam transport. In this paper, we present the current status of the Femto-Slicing project at SOLEIL, with particular emphasis on the expected performance, and the design and construction of the laser beam transport and the diagnostics implementation.",

author = "P. Prigent and Ph Hollander and M. Labat and Couprie, \{M. E.\} and Marlats, \{J. L.\} and C. Laulh{\'e} and J. Luning and T. Moreno and P. Morin and A. Nadji and F. Polack and S. Ravy and M. Silly and F. Sirotti",

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AU - Prigent, P.

AU - Hollander, Ph

AU - Labat, M.

AU - Couprie, M. E.

AU - Marlats, J. L.

AU - Laulhé, C.

AU - Luning, J.

AU - Moreno, T.

AU - Morin, P.

AU - Nadji, A.

AU - Polack, F.

AU - Ravy, S.

AU - Silly, M.

AU - Sirotti, F.

PY - 2013/1/1

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N2 - The aim of the Femto-Slicing project at SOLEIL is to generate 100 fs X-rays pulses on two beamlines, CRISTAL and TEMPO, for pump-probe experiments in the hard and soft X-rays regions. Two fs lasers are currently in operation on TEMPO and CRISTAL for pump-probe experiments on the ps time scale enabling time resolved photoemission and photodiffraction studies. The Femto-Slicing project is based on the fs laser of the CRISTAL beamline, which can be adjusted to deliver 3 mJ pulses of 30 fs duration at 2.5 kHz. The laser beam will be separated in three branches: one delivering about 2 mJ to the modulator Wiggler and the other ones delivering the remaining energy to the TEMPO and CRISTAL experiments. This layout will yield natural synchronization between IR laser pump and X-ray probe pulses, only affected by jitter associated with beam transport. In this paper, we present the current status of the Femto-Slicing project at SOLEIL, with particular emphasis on the expected performance, and the design and construction of the laser beam transport and the diagnostics implementation.

AB - The aim of the Femto-Slicing project at SOLEIL is to generate 100 fs X-rays pulses on two beamlines, CRISTAL and TEMPO, for pump-probe experiments in the hard and soft X-rays regions. Two fs lasers are currently in operation on TEMPO and CRISTAL for pump-probe experiments on the ps time scale enabling time resolved photoemission and photodiffraction studies. The Femto-Slicing project is based on the fs laser of the CRISTAL beamline, which can be adjusted to deliver 3 mJ pulses of 30 fs duration at 2.5 kHz. The laser beam will be separated in three branches: one delivering about 2 mJ to the modulator Wiggler and the other ones delivering the remaining energy to the TEMPO and CRISTAL experiments. This layout will yield natural synchronization between IR laser pump and X-ray probe pulses, only affected by jitter associated with beam transport. In this paper, we present the current status of the Femto-Slicing project at SOLEIL, with particular emphasis on the expected performance, and the design and construction of the laser beam transport and the diagnostics implementation.

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ER -

Progress on the Femto-Slicing project at the synchrotron SOLEIL

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