同步輻射光源之現況與未來願景 - 國科會物理研究推動中心
同步輻射光源之現況與未來願景 - 國科會物理研究推動中心
同步輻射光源之現況與未來願景 - 國科會物理研究推動中心
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
同 步 輻 射 光 源 之 現 況 與 未 來 願 景<br />
Current status and future development<br />
of the NSRRC<br />
張 石 麟<br />
第 十 一 屆 物 理 新 進 人 員 及 研 究 推 動 研 討 會 2011/10/14~15
World Map of Synchrotron Facilities<br />
Hsinchu
High-tech Cluster in Greater Hsinchu Area<br />
Hsinchu Bio-medical Science Park<br />
Taiwan High Speed Rail Station<br />
ITRI<br />
TSMC<br />
NSPO<br />
NDL<br />
NCTU<br />
ITRC<br />
NCHC<br />
UMC<br />
NTHU<br />
TPS<br />
TLS<br />
TLS: 1.5 GeV, operation since Oct. 1993; the first 3 rd generation synchrotron facility in Asia<br />
TPS: 3 GeV, operation planned for 2013; It will be the brightest synchrotron light source of this energy range in Asia
Taiwan Light Source (TLS)
Taiwan Light Source (TLS)<br />
Accelerator Facility<br />
Bending Magnet<br />
Quadrupole Magnet<br />
Pulsed Injection Magnet<br />
Sextupole Magnet<br />
RF Cavity<br />
Insertion Device<br />
Storage Ring<br />
(1.5 GeV)<br />
Top-up injection implemented in Oct. 2005<br />
= 120 m<br />
LINAC<br />
Transport Line<br />
Booster Ring<br />
(1.5 GeV)<br />
• Electron gun (140 keV)<br />
• Linear accelerator (50 MeV)<br />
• Booster ring (50 MeV ~ 1.5 GeV)<br />
5
NSRRC Beamlines Layout 30 BLs, over 50 End stations<br />
24A BM - (WR-SGM) XPS, UPS<br />
23A IASW - SAXS<br />
21C BM - Beam Diagnosis<br />
21B U9 - (CGM) Angle-Resolved UPS, Spectroscopy<br />
21A U9 - (White Light) Chemical Dynamics ( )<br />
20B BM - X-ray Instrumentation<br />
20A BM - (H-SGM) XAS<br />
19B BM - Photo Stimulated Desorption<br />
19A BM - X-ray Lithography<br />
18B BM - LIGA<br />
18A BM - Beam Diagnosis<br />
17C W20 - EXAFS<br />
17B W20 - X-ray Scattering<br />
17A W20 - X-ray Diffraction<br />
16A<br />
15A<br />
BM - Tender X-ray Absorption, Diffraction<br />
IASW - Long Wavelength MX<br />
14A BM - IR Microscopy<br />
22<br />
21<br />
U9<br />
23<br />
IASW<br />
24<br />
SWLS<br />
01<br />
02<br />
03<br />
04<br />
EPU5.6<br />
NSRRC Beamlines<br />
at Hsinchu, Taiwan<br />
05<br />
06<br />
IASW<br />
08<br />
IR, VUV : 5<br />
soft X-ray<br />
: 11<br />
hard X-ray<br />
: 12<br />
20<br />
beam diagnosis : 6<br />
under construction<br />
19<br />
: 2<br />
10 09<br />
18<br />
17 11<br />
W20<br />
16<br />
IASW<br />
SW<br />
15 14 13<br />
12<br />
07<br />
U5<br />
( ) White X-ray - SWLS 01A<br />
( ) X-Ray Microscopy - SWLS 01B<br />
EXAFS, Powder Diffraction - SWLS 01C<br />
Gas Phase (HF-CGM) - BM<br />
03A<br />
Beam Diagnosis - BM 04A<br />
Gas Phase (Seya) - BM 04B<br />
SRCD - BM 04C<br />
Soft X-ray Scattering - EPU 05A<br />
Spin-Polarized PES, PEEM - EPU 05B<br />
X-ray Scattering - IASW 07A<br />
XPS, UPS (L-SGM) - BM 08A<br />
XAS, XPS ( M-AGM) - BM 08B<br />
SPEM, XPS - U5 09A<br />
Beam Diagnosis - BM<br />
10A<br />
13C<br />
13B<br />
SW6 - Protein Crystallography<br />
SW6 - Protein Crystallography<br />
13A SW6 - X-ray Membrane Scattering<br />
( ) MCD, XAS (Dragon) - BM<br />
Beam Diagnosis - BM<br />
3 additional hard x-ray BLs at SPring-8, Japan<br />
11A<br />
11B<br />
NSRRC Beamlines<br />
at SPring-8, Japan<br />
SP12U Inelastic X-ray Scattering 12<br />
SP12D HE Photoemission<br />
Protein Crystallography,<br />
SP12B X-ray Absorption, Diffraction hard X-ray : 3<br />
Insertion Devices<br />
EPU5.6: Elliptically Polarized Undulator<br />
IASW: In-Archomatic Superconducting Wiggler<br />
SW: Superconducting Wiggler (3.2 T, 32 Poles)<br />
SWLS: Superconducting Wavelength Shifter<br />
U5: Undulator (5 cm, 76 Periods)<br />
U9: Undulator (9 cm, 48 Periods)<br />
W20: Wiggler (1.8 T, 27 Poles)<br />
( ) : Participating Research Group
Experimental Techniques available at NSRRC<br />
Microscopy: IR, PEEM. SPEM, TXM<br />
Spectroscopy: PES (XPS, UPS), PAS, Chemical Dynamics<br />
MCD, Photo Stimulated Desorption Atomic and<br />
Molecular Spectroscopy, XAS. EXAFS, XANES, DAFS<br />
Diffraction/scattering: XRD, RXS, IXS, X-ray<br />
Scattering, Protein Crystallography<br />
X-ray Lithography, ………
TLS Experimental Hall<br />
Over 30 beamlines and > 50 end stations are in operation or construction
2004 年 用 戶 實 驗 Users 計 畫 數 Distribution 、 人 次 及 研 究 領 域 分 佈<br />
Experimenta<br />
al Runs<br />
No. of<br />
User-runs<br />
1400<br />
6.5% international proposals<br />
1200<br />
1000<br />
800<br />
600<br />
400<br />
200<br />
0<br />
1994 1996 1998 2000 2002 2004 2006 2008 2010<br />
10000<br />
3% international users<br />
9000<br />
8000<br />
7000<br />
6000<br />
5000<br />
4000<br />
3000<br />
2000<br />
1000<br />
0<br />
1994 1996 1998 2000 2002 2004 2006 2008 2010<br />
Distribution of users' proposals in 2010<br />
Chemistry,<br />
5%<br />
Soft Matter,<br />
12%<br />
Protein<br />
Crystallography,<br />
12%<br />
Environment &<br />
Earth Science,<br />
8%<br />
Methodology &<br />
Instrumentation,<br />
2%<br />
Materials Science,<br />
Nanofabrication, 2%<br />
23% Applied and<br />
Industrial<br />
Research, 3%<br />
Surface, Interface Others, 2%<br />
and Thin Films, Atomic and<br />
Condensed<br />
13%<br />
Molecular<br />
Matter Physics,<br />
Science, 4%<br />
14%
Distribution of Domestic Users (total 107)<br />
台 中 市<br />
中 山 醫 學 大 學<br />
中 興 大 學<br />
逢 甲 大 學<br />
東 海 大 學<br />
塑 膠 工 業 發 展 中 心<br />
南 投 縣<br />
曁 南 國 際 大 學<br />
彰 化 縣<br />
彰 化 師 範 大 學<br />
大 葉 大 學<br />
雲 林 縣<br />
虎 尾 技 術 學 院<br />
雲 林 科 技 大 學<br />
桃 園 縣<br />
中 山 科 學 研 究 院<br />
中 央 大 學<br />
中 原 大 學<br />
元 智 大 學<br />
長 庚 大 學<br />
核 能 研 究 所<br />
萬 能 技 術 學 院<br />
警 察 大 學<br />
中 壢 市<br />
南 亞 技 術 學 院<br />
新 竹 市<br />
中 華 大 學<br />
國 家 同 步 輻 射 研 究 中 心<br />
交 通 大 學<br />
清 華 大 學<br />
新 竹 師 範 學 院<br />
國 家 奈 米 元 件 實 驗 室<br />
新 竹 縣<br />
工 研 院<br />
明 新 技 術 學 院<br />
錸 寶 科 技<br />
台 北 市<br />
大 同 大 學<br />
大 同 高 中<br />
文 化 大 學<br />
中 央 研 究 院<br />
台 灣 大 學<br />
台 灣 科 技 大 學<br />
台 灣 師 範 大 學<br />
東 吳 大 學<br />
國 防 醫 學 院<br />
陽 明 大 學<br />
新 埔 技 術 學 院<br />
嘉 義 市<br />
中 油 煉 製 研 究 所<br />
嘉 義 大 學<br />
嘉 義 縣<br />
中 正 大 學<br />
吳 鳳 技 術 學 院<br />
台 南 市<br />
台 糖 研 究 所<br />
成 功 大 學<br />
台 南 縣<br />
中 華 醫 事 學 院<br />
崑 山 科 技 大 學<br />
南 榮 技 術 學 院<br />
高 雄 市<br />
中 山 大 學<br />
中 鋼 公 司<br />
高 雄 第 一 科 技 大 學<br />
高 雄 師 範 大 學<br />
高 雄 縣<br />
義 守 大 學<br />
輔 英 技 術 學 院<br />
和 春 技 術 學 院<br />
宜 蘭 縣<br />
復 興 工 商<br />
南 洋 技 術 學 院<br />
台 北 縣<br />
海 洋 大 學<br />
紡 織 研 究 中 心<br />
淡 江 大 學<br />
輔 仁 大 學<br />
花 蓮 縣<br />
東 華 大 學<br />
慈 濟 大 學
Distribution of International Users (184 institutes)<br />
Sweden<br />
1<br />
Holland<br />
4<br />
Britain<br />
4<br />
France<br />
8<br />
Italy<br />
6<br />
Germany<br />
11<br />
Switzerland<br />
2<br />
Slovakia<br />
1<br />
Croatia<br />
1<br />
Russia<br />
4<br />
China(Include Hong Kong)<br />
11<br />
Korea<br />
8<br />
Japan<br />
30<br />
Canada<br />
5<br />
America<br />
43<br />
Costa Rica<br />
1<br />
Jorda<br />
n<br />
1<br />
India<br />
8<br />
Brazil<br />
1<br />
Thailand<br />
5<br />
Malaysia<br />
1<br />
Australia<br />
23<br />
Singapore<br />
5<br />
Dec. 2010
Annual availability of TLS operation time<br />
Scheduled Delivered Ratio<br />
9000<br />
100%<br />
8000<br />
95%<br />
ated Hours*<br />
Ann nual Accumul<br />
7000<br />
6000<br />
5000<br />
4000<br />
3000<br />
2000<br />
90%<br />
85%<br />
80%<br />
75%<br />
70%<br />
65%<br />
60%<br />
1000<br />
55%<br />
0<br />
1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010<br />
Year<br />
50%<br />
*accumulated time : user time + machine time
Annual availability of TLS user time<br />
100.0<br />
95.8<br />
97.2 97.5 96.8 96.7 98.1 97.9 97.9 97.4<br />
350<br />
90.0<br />
delivered MTBF availbility (%)<br />
300<br />
Delivered tim me * 100<br />
80.0<br />
70.0<br />
60.0<br />
50.0<br />
40.0<br />
250<br />
200<br />
150<br />
MTBF(Hou ur)<br />
30.0<br />
100<br />
20.0<br />
10.0<br />
50<br />
0.0<br />
2002 2003 2004 2005 2006 2007 2008 2009<br />
2010<br />
0<br />
Year<br />
MTBF : Mean Time Between Failiure
Growth of User-runs<br />
f Use er-run<br />
No. o<br />
9000<br />
8000<br />
ns<br />
10000<br />
7000<br />
6000<br />
5000<br />
4000<br />
3000<br />
2000<br />
1000<br />
N000<br />
0<br />
19941995199619971998199920002001200220032004200520062007200820092010<br />
Year
Number of graduated students<br />
with their thesis work performed at NSRRC<br />
nts<br />
. of Stude<br />
No<br />
250<br />
200<br />
150<br />
100<br />
50<br />
192<br />
67<br />
M. S.<br />
175<br />
Ph. D.<br />
52<br />
0<br />
1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010<br />
Year<br />
*Integration with neighboring universities for joint PhD programs
Mid-energy Synchrotrons Worldwide<br />
1993<br />
Taiwan,<br />
Hsinchu<br />
TLS 1.5 25.4 (18) 120 6m*6 6 TBA Operation<br />
Date Location Name<br />
E<br />
[GeV]<br />
Emit.<br />
[nm-rad]<br />
C<br />
[m]<br />
Straights<br />
m*section<br />
Cell<br />
Status<br />
2001<br />
2006<br />
2006<br />
2006<br />
2008<br />
2009<br />
2013<br />
2015<br />
Switzerland,<br />
Villigen<br />
France,<br />
Orsay<br />
UK,<br />
Oxfordshire<br />
Australia,<br />
Melbourne<br />
China,<br />
Shanghai<br />
Spain,<br />
Barcelona<br />
Taiwan,<br />
Hsinchu<br />
USA,<br />
Brookhaven<br />
SLS 2.4 4.8 (4.1) 288 11.76m*3+7m*3+4m*6 12 TBA Operation<br />
SOLEIL 2.75 (3.7) 351 12m*4+7m*12+3.6m*8 16 DBA Operation<br />
DIAMOND 3.0 6.5 (2.7) 562 11.34m*6+8.34m*18 24 DBA Operation<br />
Boomerang 3.0 16 (6.9) 216 5.4m*14 14 DBA Operation<br />
SSRF 3.5 7.8 (3.0) 432 12m*4+6.7m*16 20 DBA Operation<br />
ALBA 3.0 (4.2) 268 8m*4+4.2m*12+2.6m*8 16 DBA Commission<br />
TPS 3.0 (1.6) 518 12m*6+7m*18 24 DBA Construction<br />
NSLS II 3.0 0.6 791.5 9.3m*15+6.6m*15 30 DBA Construction
台 灣 光 子 源 Taiwan Photon Source (TPS)
TPS Construction Schedule<br />
Project items<br />
year<br />
‘07 ‘08 ‘09 ‘10 ‘11 ‘12 ‘13 ‘14<br />
1. Acc. Design<br />
2. Prototype &<br />
long lead item<br />
2012 年 第 一 季 進 行 準 直 定 位 及 磁 鐵 支 架<br />
3. Accelerator<br />
安 裝 開 始<br />
Construction 2013 年 第 四 季 開 始 儲 存 環 試 車<br />
4. Installation<br />
5. Commission<br />
6. Civil & Util.<br />
Installation pedestal and girder in Q2, 2012 Now<br />
Booster and storage ring commissioning in Q1, 2014.
TPS Major Milestones(2004-14)<br />
• July 2004<br />
• Jan. 2005<br />
• June 2006<br />
• Mar. 2007<br />
• Oct. 2007<br />
• Dec. 2007<br />
• May 2008<br />
• June 2008<br />
• Dec. 2008<br />
• June 2009<br />
• Sept. 2009<br />
• Dec. 2009<br />
• Feb. 2010<br />
• Dec. 2012<br />
• Dec. 2013<br />
• Dec. 2014<br />
Green light on TPS project by BOT<br />
7th National S&T Meeting – S&T Policy ground setting<br />
Submission of TPS proposal to NSC<br />
Approval of TPS project by Executive Yuan<br />
Architect firm selected<br />
Approval of TPS budget by Legislative Yuan (~NTD 6,886M total)<br />
Completion of site plan<br />
Accelerator Design Book (DRAFT) issued<br />
EPA approval of TPS project<br />
Approval of TPS revised budget plan by Legislative Yuan<br />
Approval of 30% civil design by Legislative Yuan<br />
Civil & utility construction contracts signed<br />
Ground breaking ceremony<br />
Completion of civil construction of TPS complex including Activity<br />
Center, Storage Ring Bldg., Administration & Operation Center<br />
Completion of accelerator assembly & installation<br />
TPS – commissioning, test-run, and open for users<br />
980220-20<br />
20110816
TPS Construction Budget<br />
Conventional utilities (11.9%)<br />
0.5%<br />
Safety systems (0.7%)<br />
0.1%<br />
Accelerator physics (0.3%)<br />
11.9%<br />
Injector (10.9%)<br />
0.7%<br />
Magnets (5.0%)<br />
03% 0.3%<br />
29.2% Vacuum systems (10.5%)<br />
10.9%<br />
Front ends (1.8%)<br />
Mechanical positioning system (3.9%)<br />
0.2%<br />
10% 1.0%<br />
5.0%<br />
5.0%<br />
10.5%<br />
Helium cryogenic system (5.2%)<br />
Beam diagnostics and feedback (2.6%)<br />
Control system (2.6%)<br />
Radio-frequency system (8.6%)<br />
Power supply system (5.0%)<br />
8.6%<br />
1.8%<br />
Travels & consultation (1.0%)<br />
3.9%<br />
26% 2.6% 52% 5.2%<br />
Project management (0.2%)<br />
2.6%<br />
Civil construction (29.2%)<br />
(~210 M USD)<br />
Salaries & compensations (0.1%)<br />
Total budget: NT$6885.68 millions Accelerator and end station R&D (0.5%)
Progress of TPS Project
Taiwan Photon Source (TPS)<br />
3 GeV, 518.4 m, 500 mA<br />
Taiwan Light Source<br />
(TLS)<br />
Administration and Operation Center<br />
Academic Activity i Center<br />
Natural emittance: 1.6 nm-rad<br />
Straight sections: 7 m (x 18); 12 m (x 6)<br />
3D Aerial View of NSRRC<br />
Full capacity: 48 ports
NSRRC Top Overview after TPS<br />
Instrumentation<br />
Bldg.<br />
Utility<br />
Bldg.<br />
TLS Storage<br />
Ring<br />
TLS<br />
Booster<br />
Bldg.<br />
Research<br />
Bldg.<br />
Activity<br />
Administratio<br />
Center &<br />
n & Operation<br />
Utility Bldg. Center TPS Storage<br />
Ring<br />
Linac Testing area<br />
990112-24<br />
Guest<br />
House
Major Parameters of Taiwan Photon Source<br />
Energy<br />
Current<br />
SR circumference<br />
BR circumference<br />
Lattice<br />
Straight sections<br />
Bending magnets<br />
Emittance<br />
Coupling<br />
RF frequency<br />
RF gap voltage<br />
RF power<br />
Location<br />
Building<br />
3 GeV (maximum 3.3 GeV), Ec=7.12 keV<br />
500 mA at 3 GeV (Top-up injection)<br />
518.4 m (h = 864 = 2 5·3 3 , dia.= 165.0 m)<br />
496.8 m (h = 828 = 2 2·3 2·23, dia.= 158.1 m)<br />
24-cell DBA<br />
12 m x 6 ( σ v = 12 μm, σ h = 160 μm)<br />
7 m x 18 ( σ v = 5 μm, σ h = 120 μm)<br />
48<br />
1.6 nm·rad at 3 GeV (Distributed dispersion)<br />
1 %<br />
500 MHz<br />
2.8~3.5 MV (3 SRF cavities)<br />
750 kW (3 SRF cavities)<br />
No. 101, Hsin-Ann Road, Hsinchu, Taiwan<br />
Outer diameter 210 m ; Inner diameter 129 m
TPS Schedule<br />
2. Complete accelerator component assembly in the 3 rd quarter of 2013<br />
1. Finish Civil construction & utility system in the 4 th quarter of 2012<br />
3. Commission in the 4 th quarter of 2013, and open to users in Dec. 2014. 1000201-11
TPS Accelerator Design and Prototype<br />
Four types of QP lamination shape<br />
Extended type<br />
H-type DP lamination shape<br />
二 極 、 四 極 與 六 極 磁 鐵<br />
S1<br />
Cutting type<br />
S7<br />
Three types of SP lamination shape<br />
A-type<br />
C-type<br />
B-type<br />
BPM1<br />
IG3<br />
SGV2<br />
真 空 系 統 設 計 與 射 束 診 斷 安 排<br />
S3 S4 B1<br />
TMP1<br />
IP1<br />
NEG1<br />
NEG2<br />
BPM2<br />
BPM3<br />
IG4<br />
IP2<br />
NEG3<br />
NEG4<br />
BPM4<br />
IP3<br />
NEG5<br />
IG5<br />
TMP2 TMP3 TMP4<br />
S5<br />
IP4<br />
NEG6<br />
NEG7<br />
BPM5<br />
B2<br />
IG6<br />
BPM6<br />
NEG8 IP5<br />
NEG9<br />
TMP5<br />
IP6<br />
NEG10<br />
SGV1<br />
BPM7<br />
TMP6<br />
超 導 高 頻 共 振 腔<br />
KEKB Type SRF Module<br />
• Installed at<br />
KEKB (508 MHz) and<br />
BECP-II/IHEP (500 MHz)<br />
17<br />
Standard type<br />
修 正 磁 鐵 電 源 供 應 器 原 型<br />
( 與 工 研 院 合 作 開 發 )<br />
Specification<br />
Max. volt/cur.: ±50V/±10A<br />
Current ripple: 10 ppm<br />
Short term stability: 5 ppm<br />
Long-term stability: 10 ppm<br />
屏 蔽 牆 內 儲 存 環 與 增 能 環 結 構<br />
700 W 液 氦 低 溫 系 統 配 置<br />
Total 750 units to be fabricated by local company<br />
TPS 儲 存 環 1/24 段 實 體 照 片<br />
四 極 磁 鐵 原 型 及 量 測 平 台<br />
潔 淨 室 無 油 加 工 鋁 質 二 極 真 空 腔<br />
Hall 量 測 系 統<br />
四 極 磁 鐵<br />
Hall 量 測 支 架<br />
鐵 蕊 組 裝 治 具 -0.3 -0.2 -0.1 0.0 0.1 0.2 0.3<br />
Quadrupole distribution (T-m)<br />
18<br />
16<br />
14<br />
12<br />
10<br />
8<br />
6<br />
4<br />
2<br />
0<br />
Longitude axis (m)<br />
沿 軸 向 四 極 鐵 磁 場 強 度 測 試<br />
‧ 四 極 成 分 達 設 計 值<br />
‧ 八 、 十 二 極 分 量 超 出 規 格<br />
‧ 工 程 精 度 需 提 昇 ( 底 座 等 )<br />
‧ 品 質 需 強 化 ( 線 圈 溫 升 )<br />
3D dipole Al chamber machining<br />
1. In clean room<br />
2. Oil free environment<br />
3. High precision on profile
TPS Linac system<br />
Linac<br />
Control area for power supply & mW<br />
Electron transport line (testing)
LINAC Test Area (completed)<br />
Control system &RF Electron gun & Linac<br />
modulator<br />
29
Measured electron bunch parameters in Linac<br />
30
Storage ring girder & alignment system<br />
3 kinds and 5 types of girder<br />
1/6 ring symmetry section girders configuration<br />
One girder section(1/24) with magnets and vacuum system<br />
31<br />
One girder section
Vacuum chamber design & machining<br />
Oil-free CNC Machining<br />
in Clean Room<br />
100.07.18/ 3-3 常 務 董<br />
事 會<br />
CNC Machining Processes (sprayed with pure alcohol)<br />
32
Storage ring dipole magnets (Type I)<br />
Photograph and coordinate definition<br />
33<br />
33
Storage ring quadrupole & sextupole magnets<br />
SR‐SM _B (S2)<br />
SR‐SM _C (S3)<br />
Lamination and bounding finished<br />
Magnet type quantity<br />
SR-QM 8<br />
SR-SM 2<br />
BR-QM 2<br />
SR‐QM<br />
SR‐DM_type I<br />
34
Arrangement of transmission line magnets<br />
Magnet type<br />
Quantity<br />
Dipole 3<br />
Quadrupole 2<br />
Corrector 11<br />
35
700W LHe system test<br />
Cold Box Main Oil Removal System Adsorber regeneration skid<br />
1. The Liquefaction rate with LN 2 precooling is 199 L/hr > required 150 L/hr<br />
2. The Refrigeration power with LN 2 precooling is 720W > required 715W<br />
3. The Mixing mode with LN 2 precooling is 660W and 59 L/hr > required 650W and 25 L/hr<br />
4. The Liquefaction rate without LN 2 precooling is 142 L/hr<br />
5. The Refrigeration power without LN 36 2 precooling is 398W > required 385W
Double minimum design for 12 m straight section<br />
ID QM 37<br />
ID
Civil construction of TPS SR and academic activity center<br />
Storage ring (Z1~Z3): 完 成 基 礎 板 與 地 上 層 鋼 筋 綁 扎 及 灌 漿<br />
99.11 99.12 100.01<br />
Academic Activity Center: 完 成 結 構 體 鋼 筋 綁 扎 及 灌 漿 並 開 始 回 填<br />
99.11 99.12 100.01<br />
38/53
Academic Activity Center<br />
Curtain wall<br />
modelling<br />
Underground parking lot<br />
Guest room<br />
partition<br />
Transformer<br />
39
Academic Activity Center<br />
Outside<br />
International conference hall<br />
B1<br />
Refrigerator housing<br />
40
NSRRC site image from satellite<br />
100.07.18/ 3-3 常 務 董<br />
事 會<br />
41
Construction of storage ring & booster 100/06/07<br />
42
TPS & TLS Lattice Diagram
TPS Phase I Beamlines<br />
‣ To be completed in 2013:<br />
• Micro X-ray protein Crystallography<br />
• High- resolution inelastic soft X-ray scattering<br />
• Sub-micro soft X-ray spectroscopy<br />
‣ To be completed in 2014 :<br />
• Coherent X-ray scattering<br />
• Sub-micro X-ray diffraction<br />
• X-ray nano probe<br />
• Temporal coherent X-ray diffraction
Phase‐I Beamline Plan of TPS<br />
Protein<br />
Crystallography<br />
05<br />
Injection 01<br />
soft X‐ray<br />
09<br />
Temporal lCoherent<br />
XRD<br />
3 GeV, 500 mA<br />
24‐cell DBA<br />
ID: 12m X 6, 7 m X 18<br />
15 ID and 24 BM available for<br />
phase II<br />
43<br />
Soft RIXS 41<br />
SRF<br />
SRF<br />
33<br />
21<br />
SRF<br />
Total<br />
beamlines:<br />
22 ID (odd #)<br />
24 BM (even #)<br />
23 Sub‐μ XRD<br />
SRF<br />
25<br />
Nano‐probe<br />
Coherent<br />
Scattering<br />
(SAXS)
Conceptual Design of TPS Phase I Beamlines
Development of Taiwan Synchrotron Facilities<br />
A new 3 GeV ring to fill<br />
the energy gap and for<br />
the future x-ray sciences<br />
in Taiwan.<br />
SPring-8<br />
(8 GeV)<br />
SPring-8 Compact<br />
SASE Source (SCSS)<br />
Taiwan Contract Beamlines<br />
TPS<br />
(3 GeV)<br />
TLS<br />
(1.0 GeV)<br />
Reduce TLS energy for IR, VUV<br />
and soft x-ray sciences
Phase II BLs: Call for LOI<br />
LOI submission<br />
Deadline<br />
01/31/2011<br />
Review<br />
(Scientific Merit and<br />
Technical Feasibility)<br />
04/30/2011<br />
Approval of<br />
LOI<br />
Feedback<br />
Scientific &<br />
Technical Workshops<br />
Deadline<br />
11/30/2011<br />
Proposal &<br />
Conceptual Design<br />
Review (CDR)<br />
03/30/2012<br />
Approval of<br />
Proposal<br />
Feedback<br />
SAC<br />
(Jan. or Feb. 2012)<br />
BOT (Mar. 2012)<br />
DtildD Detailed Design Report<br />
Construction<br />
Commissioning
Science at NSRRC<br />
New Mater. & extreme<br />
NEMS & Nano Probes<br />
Phenomena<br />
‣bio chips<br />
‣ topological insulators<br />
‣drugg delivery<br />
‣multiferroics<br />
‣surfaces/interfaces of<br />
‣ superconductors:<br />
nitride<br />
Fe oxypnictide<br />
‣ Environm. Science & Clean Energy<br />
Earth & Planet Science<br />
‣high pressure science<br />
‣star dusts<br />
‣mineral analysis<br />
‣isotopic molecules….<br />
‣pollution<br />
‣Energy regeneration<br />
‣Hydrogen storage<br />
‣Solar energy<br />
Life Science<br />
‣proteins; membranes<br />
‣ biomedical images<br />
‣drugg design<br />
‣neuonetwork<br />
‣brain research
Focus (in terms of techniques used):<br />
High-resolution, time-resolved, pump-probe,<br />
spatial & temporal coherence related studies<br />
Capability for technology development :<br />
Laser slicing, i X-ray free-electron laser, etc.
Organization adjustment for the planned<br />
Ministry i of Science & Technology (2012)<br />
National Research Institute for Accelerator-Based Light<br />
Source 『 國 家 加 速 器 光 源 研 究 院 』:<br />
Taiwan Light Source (TLS)<br />
Taiwan Photon Source (TPS)<br />
Taiwan-Australia Neutron Program<br />
XFEL (??)<br />
Accelerator-based Neutron Source (??)<br />
Microscopy Center (??)<br />
Proton Therapy Program (??)
Hopefully, the accelerator based<br />
facilities could be integrated under<br />
the new organization to provide<br />
better service to our users and<br />
better opportunity<br />
for advanced<br />
research & development.
Thank you for your attention!
學 術 活 動 中 心 暨 機 電 三 館
行 政 暨 運 轉 中 心