Photon diagnostics for the seeding experiment at FLASH

F. Curbis; A. Azima; J. Boedewadt; H. Delsim-Hashemi; M. Drescher; T. Maltezopoulos; V. Miltchev; M. Mittenzwey; J. Rossbach; R. Tarkeshian; M. Wieland; S. Duesterer; J. Feldhaus; T. Laarmann; H. Schlarb; S. Khan; A. Meseck; R. Ischebeck

Photon diagnostics for the seeding experiment at FLASH

F. Curbis, A. Azima, J. Boedewadt, H. Delsim-Hashemi, M. Drescher, T. Maltezopoulos, V. Miltchev, M. Mittenzwey, J. Rossbach, R. Tarkeshian, M. Wieland, S. Duesterer, J. Feldhaus, T. Laarmann, H. Schlarb, S. Khan, A. Meseck, R. Ischebeck

Research output: Contribution to conference › Paper, not in proceeding › peer-review

Abstract

Starting from next year the technical feasibility of a direct seeding scheme at 30 and 13 nm will be studied at the Free-electron LASer in Hamburg (FLASH). During a major shutdown the SASE-FEL facility will be upgraded and it is planned to install in addition a high-harmonic generation (HHG) seed laser, a new chain of 10 m variable gap un-dulators and a dedicated commissioning beamline for photon diagnostics and pilot time-resolved pump-probe experiments. Besides demonstrating successful seeding at short wavelength, the project aims for time resolution in the 10 fs range to study ultrafast processes by combining the naturally synchronized FEL and optical seed laser pulses. After the extraction of the radiation in a magnetic chicane, a short branch will accommodate intensity and beam monitors and a high-resolution spectrometer. The intensity monitor detects scattered photons from a gold mesh on a shot-to-shot basis using micro-channel plates (MCP) and XUV diodes. It is designed to detect photons several orders of magnitude apart in flux, i.e. spanning the wide range from spontaneous emission up to the seeded FEL radiation at gigawatt power level. Simulations of this device are presented as well as calibration measurements carried out at FLASH.

Original language	English
Pages	754-757
Number of pages	4
Publication status	Published - 2009 Dec 1
Externally published	Yes
Event	31st International Free Electron Laser Conference, FEL 2009 - Liverpool, United Kingdom Duration: 2009 Aug 23 → 2009 Aug 28

Conference

Conference	31st International Free Electron Laser Conference, FEL 2009
Country/Territory	United Kingdom
City	Liverpool
Period	2009/08/23 → 2009/08/28

Cite this

Curbis, F., Azima, A., Boedewadt, J., Delsim-Hashemi, H., Drescher, M., Maltezopoulos, T., Miltchev, V., Mittenzwey, M., Rossbach, J., Tarkeshian, R., Wieland, M., Duesterer, S., Feldhaus, J., Laarmann, T., Schlarb, H., Khan, S., Meseck, A., & Ischebeck, R. (2009). Photon diagnostics for the seeding experiment at FLASH. 754-757. Paper presented at 31st International Free Electron Laser Conference, FEL 2009, Liverpool, United Kingdom.

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title = "Photon diagnostics for the seeding experiment at FLASH",

abstract = "Starting from next year the technical feasibility of a direct seeding scheme at 30 and 13 nm will be studied at the Free-electron LASer in Hamburg (FLASH). During a major shutdown the SASE-FEL facility will be upgraded and it is planned to install in addition a high-harmonic generation (HHG) seed laser, a new chain of 10 m variable gap un-dulators and a dedicated commissioning beamline for photon diagnostics and pilot time-resolved pump-probe experiments. Besides demonstrating successful seeding at short wavelength, the project aims for time resolution in the 10 fs range to study ultrafast processes by combining the naturally synchronized FEL and optical seed laser pulses. After the extraction of the radiation in a magnetic chicane, a short branch will accommodate intensity and beam monitors and a high-resolution spectrometer. The intensity monitor detects scattered photons from a gold mesh on a shot-to-shot basis using micro-channel plates (MCP) and XUV diodes. It is designed to detect photons several orders of magnitude apart in flux, i.e. spanning the wide range from spontaneous emission up to the seeded FEL radiation at gigawatt power level. Simulations of this device are presented as well as calibration measurements carried out at FLASH.",

author = "F. Curbis and A. Azima and J. Boedewadt and H. Delsim-Hashemi and M. Drescher and T. Maltezopoulos and V. Miltchev and M. Mittenzwey and J. Rossbach and R. Tarkeshian and M. Wieland and S. Duesterer and J. Feldhaus and T. Laarmann and H. Schlarb and S. Khan and A. Meseck and R. Ischebeck",

year = "2009",

month = dec,

day = "1",

language = "English",

pages = "754--757",

note = "31st International Free Electron Laser Conference, FEL 2009 ; Conference date: 23-08-2009 Through 28-08-2009",

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Curbis, F, Azima, A, Boedewadt, J, Delsim-Hashemi, H, Drescher, M, Maltezopoulos, T, Miltchev, V, Mittenzwey, M, Rossbach, J, Tarkeshian, R, Wieland, M, Duesterer, S, Feldhaus, J, Laarmann, T, Schlarb, H, Khan, S, Meseck, A & Ischebeck, R 2009, 'Photon diagnostics for the seeding experiment at FLASH', Paper presented at 31st International Free Electron Laser Conference, FEL 2009, Liverpool, United Kingdom, 2009/08/23 - 2009/08/28 pp. 754-757.

TY - CONF

T1 - Photon diagnostics for the seeding experiment at FLASH

AU - Curbis, F.

AU - Azima, A.

AU - Boedewadt, J.

AU - Delsim-Hashemi, H.

AU - Drescher, M.

AU - Maltezopoulos, T.

AU - Miltchev, V.

AU - Mittenzwey, M.

AU - Rossbach, J.

AU - Tarkeshian, R.

AU - Wieland, M.

AU - Duesterer, S.

AU - Feldhaus, J.

AU - Laarmann, T.

AU - Schlarb, H.

AU - Khan, S.

AU - Meseck, A.

AU - Ischebeck, R.

PY - 2009/12/1

Y1 - 2009/12/1

N2 - Starting from next year the technical feasibility of a direct seeding scheme at 30 and 13 nm will be studied at the Free-electron LASer in Hamburg (FLASH). During a major shutdown the SASE-FEL facility will be upgraded and it is planned to install in addition a high-harmonic generation (HHG) seed laser, a new chain of 10 m variable gap un-dulators and a dedicated commissioning beamline for photon diagnostics and pilot time-resolved pump-probe experiments. Besides demonstrating successful seeding at short wavelength, the project aims for time resolution in the 10 fs range to study ultrafast processes by combining the naturally synchronized FEL and optical seed laser pulses. After the extraction of the radiation in a magnetic chicane, a short branch will accommodate intensity and beam monitors and a high-resolution spectrometer. The intensity monitor detects scattered photons from a gold mesh on a shot-to-shot basis using micro-channel plates (MCP) and XUV diodes. It is designed to detect photons several orders of magnitude apart in flux, i.e. spanning the wide range from spontaneous emission up to the seeded FEL radiation at gigawatt power level. Simulations of this device are presented as well as calibration measurements carried out at FLASH.

AB - Starting from next year the technical feasibility of a direct seeding scheme at 30 and 13 nm will be studied at the Free-electron LASer in Hamburg (FLASH). During a major shutdown the SASE-FEL facility will be upgraded and it is planned to install in addition a high-harmonic generation (HHG) seed laser, a new chain of 10 m variable gap un-dulators and a dedicated commissioning beamline for photon diagnostics and pilot time-resolved pump-probe experiments. Besides demonstrating successful seeding at short wavelength, the project aims for time resolution in the 10 fs range to study ultrafast processes by combining the naturally synchronized FEL and optical seed laser pulses. After the extraction of the radiation in a magnetic chicane, a short branch will accommodate intensity and beam monitors and a high-resolution spectrometer. The intensity monitor detects scattered photons from a gold mesh on a shot-to-shot basis using micro-channel plates (MCP) and XUV diodes. It is designed to detect photons several orders of magnitude apart in flux, i.e. spanning the wide range from spontaneous emission up to the seeded FEL radiation at gigawatt power level. Simulations of this device are presented as well as calibration measurements carried out at FLASH.

UR - http://www.scopus.com/inward/record.url?scp=84884401135&partnerID=8YFLogxK

M3 - Paper, not in proceeding

AN - SCOPUS:84884401135

SP - 754

EP - 757

T2 - 31st International Free Electron Laser Conference, FEL 2009

Y2 - 23 August 2009 through 28 August 2009

ER -

Photon diagnostics for the seeding experiment at FLASH

Abstract

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