Energy Conservation by Low Loss Energy Conservation by Low Loss
Energy
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Energy Beam Current C of the Storage Ring C of the Booster Cells Long Strait Emittance RF frequency RF Voltage (1 st -phase) RF Power (1 st -phase) 3 GeV 400 mA at 3 GeV (300 mA in 1 st -phase) 518.4 m (h = 864) 496.8 m (h = 828 ) 24-cell DBA 12 m x 6 ( σ v = 9.8 μm, σ h = 165.1 μm) 7 m x 18 ( σ v = 5.1 μm, σ h = 120.8 μm) 1.7 nm·rad at 3 GeV (Distributed dispersion) 500 MHz 6.4 MV (4 SRF cavities) 720 kW (4 SRF cavities) Under Construction 24 DBA 12×6+7×18 518 1.6 3.0 TPS Taiwan 2013 In Operation 20 DBA 12×4+6.5×16 432 3.9 3.5 SSRF China 2008 Under Construction 30DBA 9.3×15+6.6×15 792 2.1 3.0 NSLS-II USA 2015 Operati on Time Locatio n Name Energy [GeV] Emittance [nm-rad] C [m] Long Strait [m] Cells Status 1992 France ESRF 6.0 3.7 850 6.3×32 32 DBA In Operation 1995 USA APS 7.0 3.0 1104 6.7×40 40 DBA In Operation 1997 Japan SPring-8 8.0 3.0 1432 6.6×44+30×4 48 DBA In Operation 1993 Italy ELETTRA 2.4 7.0 259 6×12 12 DBA In Operation 1995 Korea PLS 2.5 10.3 281 6×12 12 TBA In Operation 2001 Switzerland SLS 2.4 4.8 288 11.76×3+7×3+4×6 12 TBA In Operation 2003 Canada CLS 2.9 18.2 171 5.2×12 12 DBA In Operation 2004 USA SPEAR3 3.0 12 234 3×12+4.5×4+7.5×2 18 DBA In Operation 2005 France SOLEIL 2.75 3.7 354 12×4+7×12+3.6×8 16 DBA In Operation 2006 UK DIAMOND 3.0 2.7 562 8×4+5×18 24 DBA In Operation 2007 Australia AS 3.0 7.0 216 5.4×12 14 DBA In Operation 2009 Jordan SESAME 2.5 26 133 5×4+3.5×8 +1.9×4 12 DBA Under Construction 2009 Spain ALBA 3.0 4.3 269 8×4+4×12 16 DBA Under Construction ? Armenia CANDLE 3.0 8.4 216 4.8×16 16 DBA Under Construction High Energy Synchrotron Faci lity Middle Energy Synchrotron Facility TPS - Introduction Brightness of Synchrotron Light Sources TPS is scheduled to become operational in 2013. We hope TPS can offer one of the world's brightest synchrotron x-ray sources, provide cutting-edge experimental facilities and novel multidisciplinary scientific research opportunities, enhance world-class academic research, as well as create Taiwan's scientific research marvels in the twenty-first century. The first Taiwan synchrotron light source, situated at the National Synchrotron Radiation Research Center (NSRRC), has been operational over fifteen years. Scientists nationwide and all over the world have been swarming in to conduct pioneering scientific research which resulted in remarkable growth in both the research quality and quantity that leveled up to the world standard. However, in order to cope with the increasing demand for brighter synchrotron x-ray source for top-notch research, the immense competition in the international scientific arena, and the rapid development of the world’s synchrotron light source community, domestic scientific community has pushed for the next generation of synchrotron light source, the Taiwan Photon Source (TPS). Through many great efforts, the TPS team has overcome the bottlenecks on the accelerator design and the civil design. The contracting of the civil construction and the procurement of major items are now on the way. Flux of TPS 10 1 10 2 10 3 10 4 10 5 10 11 10 12 10 13 10 14 10 15 10 16 SW 48 B end U 280 EPU100 EPU70 IU 22 SU15 EPU46 C U 18 F lux (P hotons/s/0.1% bw ) P h o to n E n e rg y (e V ) Emittance vs. Circumf erence
description
Flux of TPS. Emittance vs. Circumference. Energy. Beam Current. C of the Storage Ring. C of the Booster. Cells. Long Strait. Emittance. RF frequency. RF Voltage (1 st -phase). RF Power (1 st -phase). Brightness of Synchrotron Light Sources. Operation Time. Location. Name. - PowerPoint PPT Presentation
Transcript of Energy
Energy
Beam Current
C of the Storage Ring
C of the Booster
Cells
Long Strait
Emittance
RF frequency
RF Voltage (1st-phase)
RF Power (1st-phase)
3 GeV
400 mA at 3 GeV (300 mA in 1st-phase)
518.4 m (h = 864)
496.8 m (h = 828 )
24-cell DBA 12 m x 6 ( σv = 9.8 μm, σh = 165.1 μm)
7 m x 18 ( σv = 5.1 μm, σh = 120.8 μm)
1.7 nm·rad at 3 GeV (Distributed dispersion) 500 MHz
6.4 MV (4 SRF cavities)
720 kW (4 SRF cavities)
Under Construction24 DBA12×6+7×185181.63.0TPSTaiwan2013
In Operation20 DBA12×4+6.5×164323.93.5SSRFChina2008
Under Construction30DBA9.3×15+6.6×157922.13.0NSLS-IIUSA2015
Operation Time Location Name
Energy [GeV]
Emittance [nm-rad]
C [m] Long Strait [m] Cells Status
1992 France ESRF 6.0 3.7 850 6.3×32 32 DBA In Operation
1995 USA APS 7.0 3.0 1104 6.7×40 40 DBA In Operation
1997 Japan SPring-8 8.0 3.0 1432 6.6×44+30×4 48 DBA In Operation
1993 Italy ELETTRA 2.4 7.0 259 6×12 12 DBA In Operation
1995 Korea PLS 2.5 10.3 281 6×12 12 TBA In Operation
2001 Switzerland SLS 2.4 4.8 288 11.76×3+7×3+4×6 12 TBA In Operation
2003 Canada CLS 2.9 18.2 171 5.2×12 12 DBA In Operation
2004 USA SPEAR3 3.0 12 234 3×12+4.5×4+7.5×2 18 DBA In Operation
2005 France SOLEIL 2.75 3.7 354 12×4+7×12+3.6×8 16 DBA In Operation
2006 UK DIAMOND 3.0 2.7 562 8×4+5×18 24 DBA In Operation
2007 Australia AS 3.0 7.0 216 5.4×12 14 DBA In Operation
2009 Jordan SESAME 2.5 26 133 5×4+3.5×8 +1.9×4 12 DBA Under Construction
2009 Spain ALBA 3.0 4.3 269 8×4+4×12 16 DBA Under Construction
? Armenia CANDLE 3.0 8.4 216 4.8×16 16 DBA Under Construction
High Energy Synchrotron Facility
Middle Energy Synchrotron Facility
TPS - Introduction
Brightness of Synchrotron Light SourcesBrightness of Synchrotron Light Sources
TPS is scheduled to become operational in 2013. We hope TPS can offer one of the world's brightest synchrotron x-ray sources, provide cutting-edge experimental facilities and novel multidisciplinary scientific research opportunities, enhance world-class academic research, as well as create Taiwan's scientific research marvels in the twenty-first century.
The first Taiwan synchrotron light source, situated at the National Synchrotron Radiation Research Center (NSRRC), has been operational over fifteen years. Scientists nationwide and all over the world have been swarming in to conduct pioneering scientific research which resulted in remarkable growth in both the research quality and quantity that leveled up to the world standard. However, in order to cope with the increasing demand for brighter synchrotron x-ray source for top-notch research, the immense competition in the international scientific arena, and the rapid development of the world’s synchrotron light source community, domestic scientific community has pushed for the next generation of synchrotron light source, the Taiwan Photon Source (TPS). Through many great efforts, the TPS team has overcome the bottlenecks on the accelerator design and the civil design. The contracting of the civil construction and the procurement of major items are now on the way.
Flux of TPSFlux of TPS
101 102 103 104 105
1011
1012
1013
1014
1015
1016
SW48
Bend
U280
EPU100
EPU70
IU22
SU15
EPU46 CU18
Flu
x (P
hoto
ns/s
/0.1
%bw
)
Photon Energy (eV)
Emittance vs. CircumferenceEmittance vs. Circumference
