ERL2013 - List of Authors (Bondarenko, A.V.)

Paper

Title

Page

Analysis of Injection and Recovery Schemes for a Multi-Turn ERL Based Light Source

32

Y. Petenev, T. Atkinson, A.V. Bondarenko, A.N. Matveenko
HZB, Berlin, Germany

A multi-turn energy recovery linac -based light source is under discussion. Using the superconducting Linac technology, the Femto-Science-Factory (FSF) will provide its users with ultra-bright photon beams of angstrom wavelength. The FSF is intended to be a multi-user facility and offer a variety of operation modes. The driver of the facility is a 6 GeV multiturn energy recovery linac with a split linac. In this talk we discuss designs of the optic in the linac and compare different schemes of beam acceleration: a direct injection scheme with acceleration in a 6 GeV linac, a two-stage injection with acceleration in a 6 GeV linac, and a multi-turn (3-turn) scheme with a two-stage injection and two main 1 GeV linacs. Construction costs and beam break up instability were the key points for comparison.

Slides WG203 [2.097 MB]

WG206

Start-To-End Beam Dynamic Simulations for Femto-Science-Factory Feasibility Study

38

T. Atkinson, A.V. Bondarenko, A.N. Matveenko, Y. Petenev
HZB, Berlin, Germany

Design studies for a future multi-turn ERL based light source at HZB are being investigated. The Femto-Science-Factory will provide its users with ultra-bright photons of angstrom wavelength at 6 GeV. The FSF is intended to be a multi-user facility and offer a wide variety of operation modes. A low emittance ~0.1 mkm rad mode will operate in conjunction with a short-pulse ~10 fs mode. This paper reports on the first results of the start-to-end beam dynamic simulations for both modes. Higher order geometric and chromatic aberration terms have been suppressed using both multipole magnets and biased off-crest acceleration. The influence of the collective effects (coherent synchrotron radiation) on the transversal emittance is minimised by adjusting the horizontal phase advance.

Slides WG206 [0.359 MB]

WG602

Feasibility Study of Multi-Turn ERL-Based Synchrotron Light Facility

80

A.N. Matveenko, T. Atkinson, A.V. Bondarenko, Y. Petenev
HZB, Berlin, Germany

Funding: *Work supported by Bundesministerium für Bildung und Forschung, Land Berlin, and grants of Helmholtz Association VH NG 636 and HRJRG-214
Energy Recovery Linacs (ERL) have been discussed as drivers for synchrotron radiation facilities in X-ray region for over a decade. The first proposal for a multi-turn ERL as a next generation synchrotron light facility was in 1997. Since then great advances in ERL technology and high brightness electron source development were achieved, ERL-based high power free electron infrared laser at JLab and the demonstration of multi-turn energy recovery at BINP. The feasibility of an X-ray ERL-based light source seems more and more realistic. An overview of the design of a multi-turn ERL under development at Helmholtz Zentrum Berlin (FSF – Femto-Science Factory) is given in this paper.

Slides WG602 [1.200 MB]

Paper	Title	Page
WG203	Analysis of Injection and Recovery Schemes for a Multi-Turn ERL Based Light Source	32
	Y. Petenev, T. Atkinson, A.V. Bondarenko, A.N. Matveenko HZB, Berlin, Germany
	A multi-turn energy recovery linac -based light source is under discussion. Using the superconducting Linac technology, the Femto-Science-Factory (FSF) will provide its users with ultra-bright photon beams of angstrom wavelength. The FSF is intended to be a multi-user facility and offer a variety of operation modes. The driver of the facility is a 6 GeV multiturn energy recovery linac with a split linac. In this talk we discuss designs of the optic in the linac and compare different schemes of beam acceleration: a direct injection scheme with acceleration in a 6 GeV linac, a two-stage injection with acceleration in a 6 GeV linac, and a multi-turn (3-turn) scheme with a two-stage injection and two main 1 GeV linacs. Construction costs and beam break up instability were the key points for comparison.
	Slides WG203 [2.097 MB]

WG206	Start-To-End Beam Dynamic Simulations for Femto-Science-Factory Feasibility Study	38
	T. Atkinson, A.V. Bondarenko, A.N. Matveenko, Y. Petenev HZB, Berlin, Germany
	Design studies for a future multi-turn ERL based light source at HZB are being investigated. The Femto-Science-Factory will provide its users with ultra-bright photons of angstrom wavelength at 6 GeV. The FSF is intended to be a multi-user facility and offer a wide variety of operation modes. A low emittance ~0.1 mkm rad mode will operate in conjunction with a short-pulse ~10 fs mode. This paper reports on the first results of the start-to-end beam dynamic simulations for both modes. Higher order geometric and chromatic aberration terms have been suppressed using both multipole magnets and biased off-crest acceleration. The influence of the collective effects (coherent synchrotron radiation) on the transversal emittance is minimised by adjusting the horizontal phase advance.
	Slides WG206 [0.359 MB]

WG602	Feasibility Study of Multi-Turn ERL-Based Synchrotron Light Facility	80
	A.N. Matveenko, T. Atkinson, A.V. Bondarenko, Y. Petenev HZB, Berlin, Germany
	Funding: *Work supported by Bundesministerium für Bildung und Forschung, Land Berlin, and grants of Helmholtz Association VH NG 636 and HRJRG-214 Energy Recovery Linacs (ERL) have been discussed as drivers for synchrotron radiation facilities in X-ray region for over a decade. The first proposal for a multi-turn ERL as a next generation synchrotron light facility was in 1997. Since then great advances in ERL technology and high brightness electron source development were achieved, ERL-based high power free electron infrared laser at JLab and the demonstration of multi-turn energy recovery at BINP. The feasibility of an X-ray ERL-based light source seems more and more realistic. An overview of the design of a multi-turn ERL under development at Helmholtz Zentrum Berlin (FSF – Femto-Science Factory) is given in this paper.
	Slides WG602 [1.200 MB]