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BINP EXPERIENCE IN THE DESIGN AND PRODUCTION OF INSERTION DEVICES BUDKER INSTITUTE OF NUCLEAR PHYSICS NOVOSIBIRSK

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Page 1: BINP EXPERIENCE IN THE DESIGN AND PRODUCTION OF INSERTION DEVICES BUDKER INSTITUTE OF NUCLEAR PHYSICS NOVOSIBIRSK

BINP EXPERIENCE IN THE

DESIGN AND PRODUCTION

OF INSERTION DEVICES

BUDKER INSTITUTE OF NUCLEAR PHYSICSNOVOSIBIRSK

Page 2: BINP EXPERIENCE IN THE DESIGN AND PRODUCTION OF INSERTION DEVICES BUDKER INSTITUTE OF NUCLEAR PHYSICS NOVOSIBIRSK

Superconducting Wigglers

Insertion Devices

• Superconducting wiggler 7 T for PLS (Korea), 1995

• Superconducting wiggler 7 T for BESSY II, 2000

• Superconducting wiggler 7,5 T for CAMD (LSU, USA), 1998

• Superconducting wiggler 10 T for SPring-8 (RIKEN, Japan), 1991

• 7 T superconducting BESSY-HMI multi-pole wiggler

• 3.5 T superconducting multi-pole wiggler for ELETTRA

• Superconductive 7.7 T 21-pole wiggler for SR source “Siberia-2” (Moscow,Russia)

• Superconductive 2.2 T 63-pole wiggler for Canadian Light Source, 2005

Page 3: BINP EXPERIENCE IN THE DESIGN AND PRODUCTION OF INSERTION DEVICES BUDKER INSTITUTE OF NUCLEAR PHYSICS NOVOSIBIRSK

7 T SCW for PLS (Korea), 1995

Insertion Devices

7.5 T SCW for CAMD (LSU, USA), 1998

Page 4: BINP EXPERIENCE IN THE DESIGN AND PRODUCTION OF INSERTION DEVICES BUDKER INSTITUTE OF NUCLEAR PHYSICS NOVOSIBIRSK

10 T SCW for SPring-8 (2000)

Insertion Devices

7 T SCW for BESSY II (2000)

Page 5: BINP EXPERIENCE IN THE DESIGN AND PRODUCTION OF INSERTION DEVICES BUDKER INSTITUTE OF NUCLEAR PHYSICS NOVOSIBIRSK

7 T multi-pole SCW for BESSY-II (2002)

Insertion Devices

3.5 T multi-pole SCW for ELETTRA (2003)

Page 6: BINP EXPERIENCE IN THE DESIGN AND PRODUCTION OF INSERTION DEVICES BUDKER INSTITUTE OF NUCLEAR PHYSICS NOVOSIBIRSK

Insertion Devices

7.7 T 21-pole wiggler SR source “Siberia-2” (Moscow, Russia)

2.2 T 63-pole wiggler at the Canadian Light Source

Page 7: BINP EXPERIENCE IN THE DESIGN AND PRODUCTION OF INSERTION DEVICES BUDKER INSTITUTE OF NUCLEAR PHYSICS NOVOSIBIRSK

Normal conducting wigglers and undulators

Insertion Devices

Optical klystron OK-4 for FEL (Duke University, USA), 1996

Permanent magnet undulator for FIR FEL (KAERI, Korea), 1997

Undulator with tunable elliptical polarization for APS, 1998

Helical undulators OK-5 for FEL (Duke University, USA), 2000

Undulator for SLS (Switzerland), 2001

3 Undulators for SOLEIL (France), 2004-2005

Damping undulators for PETRA (Germany), 2005-2007

Page 8: BINP EXPERIENCE IN THE DESIGN AND PRODUCTION OF INSERTION DEVICES BUDKER INSTITUTE OF NUCLEAR PHYSICS NOVOSIBIRSK

Undulator OK-4 (VEPP-3, Russia, 1988; Duke University, USA, 1996)

In 1996 the FEL system OK-4 was moved to Duke University. Using OK-4 the record short wave FEL radiation with wavelength 220 nm (1998) and 193 nm (1999) was obtained.

Insertion Devices

Two undulators of this type with a period of 12 cm and maximal field of 0.4 T were produced for FEL OK-4 at VEPP-3.

Page 9: BINP EXPERIENCE IN THE DESIGN AND PRODUCTION OF INSERTION DEVICES BUDKER INSTITUTE OF NUCLEAR PHYSICS NOVOSIBIRSK

Undulator with tunable elliptical polarization for APS, 1998

Insertion Devices

Helical undulators for Duke University, USA (2000)

Page 10: BINP EXPERIENCE IN THE DESIGN AND PRODUCTION OF INSERTION DEVICES BUDKER INSTITUTE OF NUCLEAR PHYSICS NOVOSIBIRSK

Elliptical undulator,

SLS, Switzerland (2001)

Insertion Devices

3 Elliptical undulators HU256,

SOLEIL, France (2005)

Page 11: BINP EXPERIENCE IN THE DESIGN AND PRODUCTION OF INSERTION DEVICES BUDKER INSTITUTE OF NUCLEAR PHYSICS NOVOSIBIRSK

Damping wiggler for PETRA, Germany (2005-2008)

Insertion Devices

20 wiggler segments

Length - 4 m

Gap - 24 mm which.


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