Improvement of the beam quality by chromaticity correction for wavelength shortening in the NIJI-IV FEL

N. Sei; K. Yamada; H. Ohgaki; V. N. Litvinenko; T. Mikado; T. Yamazaki

doi:10.1016/S0168-9002(99)00101-1

Improvement of the beam quality by chromaticity correction for wavelength shortening in the NIJI-IV FEL

N. Sei
, K. Yamada
, H. Ohgaki
, V. N. Litvinenko
, T. Mikado
, T. Yamazaki

Physics and Astronomy

Stony Brook University

Research output: Contribution to journal › Conference article › peer-review

16 Scopus citations

Abstract

Electron-beam qualities improved by chromaticity correction in the storage ring NIJI-IV were investigated at the beam energy of 309 MeV. Sextupole-quadrupole-sextupole (SQS) magnets, which were installed in all of the short-straight sections in NIJI-IV, perfectly corrected a horizontal and a vertical chromaticity. This improvement suppressed a head-tail instability, so that higher beam current (approximately 30 mA) and higher peak-electron density (approximately 6×10¹⁶ m^-3) were available for FEL experiments. The maximum FEL gain was estimated to be about 2.5% at a wavelength of 240 nm. The lasing of an FEL around 300 nm was achieved in March 1998, and the lasing of an FEL at around 240 nm was successfully observed in May 1998. The shortest wavelength of FELs with the NIJI-IV FEL system was 228 nm.

Original language	English
Pages (from-to)	185-190
Number of pages	6
Journal	Nuclear Inst. and Methods in Physics Research, A
Volume	429
Issue number	1
DOIs	https://doi.org/10.1016/S0168-9002(99)00101-1
State	Published - Jun 1999
Event	Proceedings of the 1998 20th International Free Electron Laser Conference and 5th FEL User Workshop - Williamsburg, VA, USA Duration: Aug 16 1998 → Aug 21 1998

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10.1016/S0168-9002(99)00101-1

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@article{bd1e7f7c799246288c223f67be52df0a,

title = "Improvement of the beam quality by chromaticity correction for wavelength shortening in the NIJI-IV FEL",

abstract = "Electron-beam qualities improved by chromaticity correction in the storage ring NIJI-IV were investigated at the beam energy of 309 MeV. Sextupole-quadrupole-sextupole (SQS) magnets, which were installed in all of the short-straight sections in NIJI-IV, perfectly corrected a horizontal and a vertical chromaticity. This improvement suppressed a head-tail instability, so that higher beam current (approximately 30 mA) and higher peak-electron density (approximately 6×1016 m-3) were available for FEL experiments. The maximum FEL gain was estimated to be about 2.5\% at a wavelength of 240 nm. The lasing of an FEL around 300 nm was achieved in March 1998, and the lasing of an FEL at around 240 nm was successfully observed in May 1998. The shortest wavelength of FELs with the NIJI-IV FEL system was 228 nm.",

author = "N. Sei and K. Yamada and H. Ohgaki and Litvinenko, \{V. N.\} and T. Mikado and T. Yamazaki",

year = "1999",

month = jun,

doi = "10.1016/S0168-9002(99)00101-1",

language = "English",

volume = "429",

pages = "185--190",

journal = "Nuclear Inst. and Methods in Physics Research, A",

issn = "0168-9002",

number = "1",

note = "Proceedings of the 1998 20th International Free Electron Laser Conference and 5th FEL User Workshop ; Conference date: 16-08-1998 Through 21-08-1998",

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TY - JOUR

T1 - Improvement of the beam quality by chromaticity correction for wavelength shortening in the NIJI-IV FEL

AU - Sei, N.

AU - Yamada, K.

AU - Ohgaki, H.

AU - Litvinenko, V. N.

AU - Mikado, T.

AU - Yamazaki, T.

PY - 1999/6

Y1 - 1999/6

N2 - Electron-beam qualities improved by chromaticity correction in the storage ring NIJI-IV were investigated at the beam energy of 309 MeV. Sextupole-quadrupole-sextupole (SQS) magnets, which were installed in all of the short-straight sections in NIJI-IV, perfectly corrected a horizontal and a vertical chromaticity. This improvement suppressed a head-tail instability, so that higher beam current (approximately 30 mA) and higher peak-electron density (approximately 6×1016 m-3) were available for FEL experiments. The maximum FEL gain was estimated to be about 2.5% at a wavelength of 240 nm. The lasing of an FEL around 300 nm was achieved in March 1998, and the lasing of an FEL at around 240 nm was successfully observed in May 1998. The shortest wavelength of FELs with the NIJI-IV FEL system was 228 nm.

AB - Electron-beam qualities improved by chromaticity correction in the storage ring NIJI-IV were investigated at the beam energy of 309 MeV. Sextupole-quadrupole-sextupole (SQS) magnets, which were installed in all of the short-straight sections in NIJI-IV, perfectly corrected a horizontal and a vertical chromaticity. This improvement suppressed a head-tail instability, so that higher beam current (approximately 30 mA) and higher peak-electron density (approximately 6×1016 m-3) were available for FEL experiments. The maximum FEL gain was estimated to be about 2.5% at a wavelength of 240 nm. The lasing of an FEL around 300 nm was achieved in March 1998, and the lasing of an FEL at around 240 nm was successfully observed in May 1998. The shortest wavelength of FELs with the NIJI-IV FEL system was 228 nm.

UR - https://www.scopus.com/pages/publications/0032629383

U2 - 10.1016/S0168-9002(99)00101-1

DO - 10.1016/S0168-9002(99)00101-1

M3 - Conference article

SN - 0168-9002

VL - 429

SP - 185

EP - 190

JO - Nuclear Inst. and Methods in Physics Research, A

JF - Nuclear Inst. and Methods in Physics Research, A

IS - 1

T2 - Proceedings of the 1998 20th International Free Electron Laser Conference and 5th FEL User Workshop

Y2 - 16 August 1998 through 21 August 1998

ER -

Improvement of the beam quality by chromaticity correction for wavelength shortening in the NIJI-IV FEL

Abstract

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