Project of booster synchrotron for Duke FEL Storage Ring

S. F. Mikhailov; V. N. Litvinenko; P. Morcombe; G. Swift; N. A. Vinokurov; N. G. Gavrilov; Yu G. Matveev; D. A. Shvedov

Project of booster synchrotron for Duke FEL Storage Ring

S. F. Mikhailov
, V. N. Litvinenko
, P. Morcombe
, G. Swift
, N. A. Vinokurov
, N. G. Gavrilov
, Yu G. Matveev
, D. A. Shvedov

Physics and Astronomy

Duke University

Research output: Contribution to conference › Paper › peer-review

8 Scopus citations

Abstract

In this paper we present a project of a Booster-injector for the Duke FEL storage ring. The Booster will provide full energy injection into the storage ring at energy from 0.25 to 1.2 GeV. The Duke storage ring FEL (SR FEL) operates in lasing mode with 193-700 nm wavelength range. This range will be extended into VUV in near future. The geometry of the Duke SR FEL provides for head-on collision of e-beam and FEL photons. This mode of operation is used for High Intensity γ-ray Source (HIγS facility) generating intense beams of γ-rays from 1 MeV to about 200 MeV (currently from 2 MeV to 58 MeV). Generation of γ-rays with energy exceeding 20 MeV causes the loss of electrons, which will be replaced by new electrons from the Booster, operating in a top-up mode. The Booster has a robust FODO lattice. In this paper we present the design of the Booster and its magnetic elements. For 2D and 3D magnet design of the magnetic elements we used MERMAID 2D/3D code.

Original language	English
Pages	3525-3527
Number of pages	3
State	Published - 2001
Event	2001 Particle Accelerator Conference - Chicago, IL, United States Duration: Jun 18 2001 → Jun 22 2001

Conference

Conference	2001 Particle Accelerator Conference
Country/Territory	United States
City	Chicago, IL
Period	06/18/01 → 06/22/01

Cite this

@conference{ae0d6b09a3974660bb4eda71418d9597,

title = "Project of booster synchrotron for Duke FEL Storage Ring",

abstract = "In this paper we present a project of a Booster-injector for the Duke FEL storage ring. The Booster will provide full energy injection into the storage ring at energy from 0.25 to 1.2 GeV. The Duke storage ring FEL (SR FEL) operates in lasing mode with 193-700 nm wavelength range. This range will be extended into VUV in near future. The geometry of the Duke SR FEL provides for head-on collision of e-beam and FEL photons. This mode of operation is used for High Intensity γ-ray Source (HIγS facility) generating intense beams of γ-rays from 1 MeV to about 200 MeV (currently from 2 MeV to 58 MeV). Generation of γ-rays with energy exceeding 20 MeV causes the loss of electrons, which will be replaced by new electrons from the Booster, operating in a top-up mode. The Booster has a robust FODO lattice. In this paper we present the design of the Booster and its magnetic elements. For 2D and 3D magnet design of the magnetic elements we used MERMAID 2D/3D code.",

author = "Mikhailov, \{S. F.\} and Litvinenko, \{V. N.\} and P. Morcombe and G. Swift and Vinokurov, \{N. A.\} and Gavrilov, \{N. G.\} and Matveev, \{Yu G.\} and Shvedov, \{D. A.\}",

year = "2001",

language = "English",

pages = "3525--3527",

note = "2001 Particle Accelerator Conference ; Conference date: 18-06-2001 Through 22-06-2001",

}

TY - CONF

T1 - Project of booster synchrotron for Duke FEL Storage Ring

AU - Mikhailov, S. F.

AU - Litvinenko, V. N.

AU - Morcombe, P.

AU - Swift, G.

AU - Vinokurov, N. A.

AU - Gavrilov, N. G.

AU - Matveev, Yu G.

AU - Shvedov, D. A.

PY - 2001

Y1 - 2001

N2 - In this paper we present a project of a Booster-injector for the Duke FEL storage ring. The Booster will provide full energy injection into the storage ring at energy from 0.25 to 1.2 GeV. The Duke storage ring FEL (SR FEL) operates in lasing mode with 193-700 nm wavelength range. This range will be extended into VUV in near future. The geometry of the Duke SR FEL provides for head-on collision of e-beam and FEL photons. This mode of operation is used for High Intensity γ-ray Source (HIγS facility) generating intense beams of γ-rays from 1 MeV to about 200 MeV (currently from 2 MeV to 58 MeV). Generation of γ-rays with energy exceeding 20 MeV causes the loss of electrons, which will be replaced by new electrons from the Booster, operating in a top-up mode. The Booster has a robust FODO lattice. In this paper we present the design of the Booster and its magnetic elements. For 2D and 3D magnet design of the magnetic elements we used MERMAID 2D/3D code.

AB - In this paper we present a project of a Booster-injector for the Duke FEL storage ring. The Booster will provide full energy injection into the storage ring at energy from 0.25 to 1.2 GeV. The Duke storage ring FEL (SR FEL) operates in lasing mode with 193-700 nm wavelength range. This range will be extended into VUV in near future. The geometry of the Duke SR FEL provides for head-on collision of e-beam and FEL photons. This mode of operation is used for High Intensity γ-ray Source (HIγS facility) generating intense beams of γ-rays from 1 MeV to about 200 MeV (currently from 2 MeV to 58 MeV). Generation of γ-rays with energy exceeding 20 MeV causes the loss of electrons, which will be replaced by new electrons from the Booster, operating in a top-up mode. The Booster has a robust FODO lattice. In this paper we present the design of the Booster and its magnetic elements. For 2D and 3D magnet design of the magnetic elements we used MERMAID 2D/3D code.

UR - https://www.scopus.com/pages/publications/0035569672

M3 - Paper

AN - SCOPUS:0035569672

SP - 3525

EP - 3527

T2 - 2001 Particle Accelerator Conference

Y2 - 18 June 2001 through 22 June 2001

ER -

Project of booster synchrotron for Duke FEL Storage Ring

Abstract

Conference

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