Machine:Storage ring parameters

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Tables

Electron beam

Table 1: Sirius SR electron beam parameters.
Energy 3.0 GeV
Gamma factor 5870.854
Beta factor 0.999999985
Velocity 2.9979×108 m/s
Magnetic rigidity 10.0069 T·m
Nominal current 350.0 mA

Main parameters

Table 2: Sirius SR main parameters.
Beam
Energy (top up) 3 GeV
Gamma factor 5871
Current 350 mA
Lattice
Version V25.01
Type 5BA
Circumference 518.3899 m
Revolution period 1.729 μs
Revolution frequency 0.5783 MHz
Long straight sections 5 7.5 m
Short straight sections 15 6.5 m
Beam plane height 1400 mm
Optics
Mode S05.01
Linear momentum compaction 1.645×10-4
Transverse coupling 3.0  %
Horizontal Vertical
Betatron tunes 49.0962 14.1520
Natural chromaticies -118.9 -81.2
Beta @ center of SS-A 17.2 3.6 m
Beta @ center of SS-B 1.5 1.4 m
Beta @ center of BC 0.3 5.4 m
Beam size @ center of SS-A 64.7 5.1 μm
Beam size @ center of SS-B 19.1 3.2 μm
Beam size @ center of BC 9.3 6.3 μm
Beam divergence @ center of SS-A 3.8 1.4 μrad
Beam divergence @ center of SS-B 12.7 2.3 μrad
Beam divergence @ center of BC 26.9 1.2 μrad
Equilibrium Parameters
Natural emittance 0.250 nm·rad
Natural energy spread 0.084  %
Natural bunch length 2.5 (8.2) mm (ps)
Energy loss per turn from dipoles 471.0 keV
Energy loss per turn from IDs 400.0 keV
Total Energy loss per turn 871.0 keV
Radiation power from dipoles 235.5 kW
Radiation power from IDS 200.0 kW
Total radiation power 435.5 kW
Horizontal Vertical Longitudinal
Damping partition number 1.30 1.00 1.70
Damping time (dipoles only) 16.92 22.03 12.97 ms
RF Parameters (with IDs)
Frequency 499.6638 MHz
Harmonic number 864
Cavity peak voltage 3.0 MV
Synchronous phase 163.1 °
Synchrotron tune 4.7×10-3
Synchrotron frequency 2.69 kHz
Energy acceptance 5.1  %
Low Field Dipoles
Magnetic field 0.5642 T
Bending radius 17.738 m
Critical energy 3.38 keV
B1 B2 BC_LF
Number of dipoles 40 40 40
Hard-edge length of dipoles 0.8530 1.2630 0.4020 m
Deflection angle 2.76 4.10 1.58 °
High Field Dipoles
Magnetic peak field 3.2 T
Bending radius @ peak 3.127 m
Critical energy @ peak 19.15 keV
BC_HF
Number of dipoles 20
Deflection angle 1.14 °

RF system

Table 1 - Main SI RF System Parameters
Energy 3.0 GeV
Maximum Beam current 500 mA
RF frequency 499.664 MHz
Harmonic number 864
Energy loss/turn from dipoles 471.01 keV
Energy loss/turn from insertions (estimated) 400 keV
Total energy loss/turn 871.01 keV
Synchrotron radiation power from dipoles 236 kW
Synchrotron radiation power from insertions 200 kW
Total synchrotron radiation power 436 kW
Peak RF voltage 3.0 MV
Overvoltage, q=V/U0 3.4
Synchronous phase 163.1 °
Synchrotron tune 0.004652
Synchrotron frequency 2.690 kHz
Momentum compaction factor 1.6×10-4
Natural bunch length 8.2 ps
RF energy acceptance 5.13  %

Global closed orbit and coupling correction system

Table 4: Parameters of the closed orbit and coupling correction system.
Number of BPMs 160
Number of skew quadrupoles 80 (+ 10 QS in fast corrector)*
Skew quadrupole maximum integrated strength 0.100 T
Horizontal Vertical
Number of slow dipole correctors 120 160**
Maximum slow dipole corrector strength 300 300 μrad
Number of fast dipole correctors 80 80
Maximum fast dipole corrector strength 30 30 μrad

* 80 skew quadrupoles are implemented as additional coils in sextupole magnets and 20 in fast correctors.

** 140 vertical corrector are implemented as additional coils in sextupole magnets and 20 vertical correctors are separated magnets.

Optics

Table 5: Sirius SR optics parameters.
Mode S05.01
Horizontal tune | betatron frequency 49.096 | 55.6 | kHz
Vertical tune | betatron frequency 14.152 | 87.9 | kHz
Linear momentum compaction 1.64×10-4
Natural horizontal linear chromaticity -118.9
Natural vertical linear chromaticity -81.2
Center of long straight section (SS-A)
Horizontal beta 17.2 m
Vertical beta 3.6 m
Center of short straight section (SS-B)
Horizontal beta 1.5 m
Vertical beta 1.4 m
Natural equilibrium beam parameters
Radiation integral I2 0.41301 m-1
Emittance 0.250 nm·rad
Energy spread 0.084  %
Bunch length | duration 2.460 | 8.206 mm | ps
Horizontal damping time 16.9 ms
Vertical damping time 22.0 ms
Longitudinal damping time 13.0 ms
Corrected coupling 3.0  %
Beamsize at SS-A center, horizontal | vertical 64.7 | 5.1 μm
Beamsize at SS-B center, horizontal | vertical 19.1 | 3.2 μm
Beamsize at BC center, horizontal | vertical 9.3 | 6.3 μm

Alignment and excitation errors

Table 6: Maximum absolute value of random alignment and excitation errors. The errors are generated with a Gaussian distribution truncated at ±1σ.
Dipole Unit Blocks Quadrupoles Sextupoles Girders BPMs
Transverse position, , 40 40 40 80 20 μm
Rotation around longitudinal axis 0.30 0.30 0.30 0.30 -- mrad
Strength error (static or low frequency) 0.05 0.05 0.05 -- --  %
Dipole Gradient error 0.1 -- -- -- --  %

Orbit correction statistics

Table 7: Orbit correction statistics over 20 random seeds for the storage ring.
Orbit
before correction (mm) after correction (μm)
wrt to ideal orbit wrt to BPMs
rms H orbit 7.8 44 -
rms V orbit 7.7 59 -
rms H orbit @ BPMs 11 50 20
rms V orbit @ BPMs 5.7 49 22
Correctors
H (μrad) V (μrad)
rms corrector strength 52 78
Max. corrector strength 147 ± 26 264 ± 47

Multipole errors

Dipoles

Table 8: Storage ring dipole multipole errors. Contribution of multipolar components relative to main dipolar field at x = 12 mm. Standard deviation for random multipole errors; simulations assume Gaussian distribution truncated at ±2σ.
Multipole error Systematic Random
Normal Normal Skew
B2/B0 (sextupole) 1.5×10-4 1.5×10-4 0.5×10-4
B3/B0 (octupole) -7.2×10-5 1.5×10-4 0.5×10-4
B4/B0 (decapole) -5.6×10-4 1.5×10-4 0.5×10-4
B5/B0 (12-pole) 6.7×10-5 1.5×10-4 0.5×10-4
B6/B0 (14-pole) 3.8×10-4 - -

Quadrupoles

Table 9: Storage ring quadrupole multipole errors. Contribution of multipolar components relative to main quadrupolar field at x = 12 mm. Standard deviation for random multipole errors; simulations assume Gaussian distribution truncated at ±2σ.
Multipole error Q14
Systematic
Normal
Q20
Systematic
Normal
Q30
Systematic
Normal
Random
Normal Skew
B2/B1 (sextupole) 1.5×10-4 0.5×10-4
B3/B1 (octupole) 1.5×10-4 0.5×10-4
B4/B1 (decapole) 1.5×10-4 0.5×10-4
B5/B1 (12-pole) -3.9×10-4 -4.1×10-4 -4.3×10-4 1.5×10-4 0.5×10-4
B9/B1 (20-pole) +1.7×10-3 +1.7×10-3 +1.8×10-3
B13/B1 (20-pole) -8.0×10-4 -7.7×10-4 -8.1×10-4
B17/B1 (20-pole) +8.5×10-5 +5.9×10-5 +7.2×10-5

Sextupoles

Table 10: Storage ring sextupole multipole errors. Contribution of multipolar components relative to main sextupolar field at x = 12 mm. Standard deviation for random multipole errors; simulations assume Gaussian distribution truncated at ±2σ.
Multipole error Systematic
(normal)
Random
Normal Skew
B3/B2 (octupole) 7.0×10-4 5.0×10-4
B4/B2 (decapole) -7.0×10-5 5.0×10-4 5.0×10-4
B5/B2 (12-pole) 4.0×10-4 5.0×10-5
B6/B2 (14-pole) -1.4×10-4 2.0×10-4 5.0×10-5
B8/B2 (18-pole) -2.4×10-3
B14/B2 (30-pole) +1.4×10-3

1 These spec values have been updated in 2018-04-23 after rotating coil measurements. They have been validated by beam dynamics calculations.

Sirius beamlines

Table 11: Sirius beamline IDs for Phase 1
Beamline Commissioning ID Final ID Straight Section
Carnaúba APU22 Delta21 06SB (low β)
Cateretê APU22 Delta21 07SP (low β)
Ema APU22 APU19 08SB (low β)
Manacá APU22 APU20 09SA (high β)
Sabiá Delta52 10SB (low β)
Ipê APU58 Delta52 11SP (low β)
PGM++ Delta52 12SB (low β)
Insertion device Delta21
Name Delta21 Unit
Type Delta
Period length (λ) 21 mm
Number of periods (Np) 114
Length (L) 240 cm
Gap (G) 7.00 mm
Maximum Power @ 500 mA 8.6 kW
Horizontal Vertical
Maximum Field 0.00 1.12 T
Maximum K 0.0 2.2
Insertion device APU19
Name APU19 Unit
Type APU
Period length (λ) 19 mm
Number of periods (Np) 126
Length (L) 240 cm
Gap (G) 5.00 mm
Maximum Power @ 500 mA 11.2 kW
Horizontal Vertical
Maximum Field 0.00 1.28 T
Maximum K 0.0 2.3
Insertion device Delta52
Name Delta52 Unit
Type Delta
Period length (λ) 52.5 mm
Number of periods (Np) 69
Length (L) 360 cm
Gap (G) 13.85 mm
Maximum Power @ 500 mA 14.6 kW
Horizontal Vertical
Maximum Field 0.00 1.19 T
Maximum K 0.0 5.85
Insertion device APU20
Name APU20 Unit
Type APU
Period length (λ) 20 mm
Number of periods (Np) 120
Length (L) 240 cm
Gap (G) 6.20 mm
Maximum Power @ 500 mA 7.8 kW
Horizontal Vertical
Maximum Field 0.00 1.07 T
Maximum K 0.0 2.0

Straight sections allocation

Table 12: Allocation of Beamlines and Diagnostics Equipments in the Storage Ring
Sector Long Straight (SA, SB, SP) M2 BC C4 Straight
01 SA TuneShkrH (0.3m) ScrapH ScrapV InjDpKckr/PingH InjNLKckr
02 SB == ID == 3HCav
03 SP 2 x SRFCav
04 SB == ID ==
05 SA == ID ==
06 SB CARNAÚBA: Delta21 (2.4m)
07 SP CATERETÊ: Delta21 (2.4m)
08 SB EMA: APU19 (2.4m)
09 SA MANACÁ: APU19 (2.4m) JATOBÁ
10 SB SABIÁ: Delta52 (3.6m) MOGNO
11 SP IPÊ: Delta52 (3.6m)
12 SB COLIBRI (PGM): Delta52 (3.6m) IMBUIA (IR)
13 SA == ID == XARU (XAFS) DCCT
14 SB HARPIA (XPD): Delta21 (2.4m) HERA DCCT
15 SP SAGUI (SAXS): Delta21 (2.4m) GBPM
16 SB INGÁ: Delta21 (2.4m) BbBKckrL (0.4m) BbBPkup QUATI BbBKckrV
17 SA SAPUCAIA: APU19 (2.4m) BbBKckrH (0.4m) TunePkup
18 SB PAINEIRA: Delta21 (2.4m) TunePkup (0.2m) TuneShkrV
19 SP == ID == GSL15 (0.25m) PingV
20 SB == ID == GSL07 (0.17m)
BbBKckrH  : H BbB (Bunch-by-Bunch) Kicker
BbBKckrV  : V BbB Kicker 
BbBKckrL  : L BbB Kicker 
BbBPkup   : BbB Pickup
TuneShkrH : H Tune Shaker
TuneShkrV : V Tune Shaker
TunePkup  : Tune Pickup
GBPM      : Extra BPM
GSL07     : Generic Stripline (λ/8)
GSL15     : Generic Stripline (λ/4)
InjDpKckr : Dipole Kicker for on-axis injection
InjNLKckr : Nonlinear Kicker
SRFCav    : Superconducting RF Cavity
3HCav     : 3rd Harmonic Cavity
DCCT      : DC Current Transformer
PingH     : Horizontal Pinger
PingV     : Vertical Pinger

Parameter name list

  1. SI beam beta factor
  2. SI beam current
  3. SI beam electron number
  4. SI beam energy
  5. SI beam gamma factor
  6. SI beam magnetic rigidity
  7. SI beam revolution frequency
  8. SI beam revolution period
  9. SI beam velocity
  10. SI bpm number
  11. SI error alignment bpm
  12. SI error alignment dipole
  13. SI error alignment girder
  14. SI error alignment quadrupole
  15. SI error alignment sextupole
  16. SI error excitation dipole
  17. SI error excitation quadrupole
  18. SI error excitation sextupole
  19. SI error gradient dipole
  20. SI error ripple dipole
  21. SI error ripple quadrupole
  22. SI error ripple sextupole
  23. SI error roll dipole
  24. SI error roll girder
  25. SI error roll quadrupole
  26. SI error roll sextupole
  27. SI error vibration dipole
  28. SI error vibration quadrupole
  29. SI error vibration sextupole
  30. SI id sabia magnetic gap
  31. SI id sabia maximum k
  32. SI id sabia period length
  33. SI lattice beam plane height
  34. SI lattice circumference
  35. SI lattice long straight section length
  36. SI lattice long straight section number
  37. SI lattice short straight section length
  38. SI lattice short straight section number
  39. SI lattice symmetry
  40. SI lattice type
  41. SI lattice version
  42. SI magnet chf maximum strength
  43. SI magnet chf number
  44. SI magnet chs maximum strength
  45. SI magnet chs number
  46. SI magnet cvf maximum strength
  47. SI magnet cvf number
  48. SI magnet cvs maximum strength
  49. SI magnet cvs number
  50. SI magnet dipole b1 deflection angle
  51. SI magnet dipole b1 hardedge bending radius
  52. SI magnet dipole b1 hardedge critical energy
  53. SI magnet dipole b1 hardedge field
  54. SI magnet dipole b1 hardedge length
  55. SI magnet dipole b1 hardedge magnetic field
  56. SI magnet dipole b1 hardedge quadrupole gradient
  57. SI magnet dipole b1 hardedge quadrupole strength
  58. SI magnet dipole b1 hardedge sagitta
  59. SI magnet dipole b1 hardedge sextupole gradient
  60. SI magnet dipole b1 hardedge sextupole strength
  61. SI magnet dipole b1 integrated field
  62. SI magnet dipole b1 integrated quadrupole gradient
  63. SI magnet dipole b1 integrated quadrupole strength
  64. SI magnet dipole b1 integrated sextupole gradient
  65. SI magnet dipole b1 integrated sextupole strength
  66. SI magnet dipole b1 magnetic full gap
  67. SI magnet dipole b1 number
  68. SI magnet dipole b1 physical length
  69. SI magnet dipole b1 quadrupole gradient flexibility
  70. SI magnet dipole b2 deflection angle
  71. SI magnet dipole b2 hardedge bending radius
  72. SI magnet dipole b2 hardedge critical energy
  73. SI magnet dipole b2 hardedge field
  74. SI magnet dipole b2 hardedge length
  75. SI magnet dipole b2 hardedge magnetic field
  76. SI magnet dipole b2 hardedge quadrupole gradient
  77. SI magnet dipole b2 hardedge quadrupole strength
  78. SI magnet dipole b2 hardedge sagitta
  79. SI magnet dipole b2 hardedge sextupole gradient
  80. SI magnet dipole b2 hardedge sextupole strength
  81. SI magnet dipole b2 integrated field
  82. SI magnet dipole b2 integrated quadrupole gradient
  83. SI magnet dipole b2 integrated quadrupole strength
  84. SI magnet dipole b2 integrated sextupole gradient
  85. SI magnet dipole b2 integrated sextupole strength
  86. SI magnet dipole b2 magnetic full gap
  87. SI magnet dipole b2 number
  88. SI magnet dipole b2 physical length
  89. SI magnet dipole b2 quadrupole gradient flexibility
  90. SI magnet dipole bc deflection angle
  91. SI magnet dipole bc effective length
  92. SI magnet dipole bc effective sagitta
  93. SI magnet dipole bc hf bending radius
  94. SI magnet dipole bc hf critical energy
  95. SI magnet dipole bc hf deflection angle
  96. SI magnet dipole bc hf effective bending radius
  97. SI magnet dipole bc hf effective critical energy
  98. SI magnet dipole bc hf effective length
  99. SI magnet dipole bc hf integrated field
  100. SI magnet dipole bc hf magnetic full gap
  101. SI magnet dipole bc hf number
  102. SI magnet dipole bc hf peak field
  103. SI magnet dipole bc integrated field
  104. SI magnet dipole bc integrated gradient
  105. SI magnet dipole bc lf deflection angle
  106. SI magnet dipole bc lf hardedge bending radius
  107. SI magnet dipole bc lf hardedge critical energy
  108. SI magnet dipole bc lf hardedge length
  109. SI magnet dipole bc lf hardedge magnetic field
  110. SI magnet dipole bc lf hardedge sagitta
  111. SI magnet dipole bc lf integrated field
  112. SI magnet dipole bc lf magnetic full gap
  113. SI magnet dipole bc lf number
  114. SI magnet dipole bc magnetic full gap
  115. SI magnet dipole bc number
  116. SI magnet dipole bc physical length
  117. SI magnet qsf maximum strength
  118. SI magnet qsf number
  119. SI magnet quadrupole bore diameter
  120. SI magnet quadrupole q14 hardedge length
  121. SI magnet quadrupole q14 maximum field at pole tip
  122. SI magnet quadrupole q14 maximum gradient
  123. SI magnet quadrupole q14 maximum integrated gradient
  124. SI magnet quadrupole q14 maximum integrated strength
  125. SI magnet quadrupole q14 maximum strength
  126. SI magnet quadrupole q14 number
  127. SI magnet quadrupole q14 physical length
  128. SI magnet quadrupole q20 hardedge length
  129. SI magnet quadrupole q20 maximum field at pole tip
  130. SI magnet quadrupole q20 maximum gradient
  131. SI magnet quadrupole q20 maximum integrated gradient
  132. SI magnet quadrupole q20 maximum integrated strength
  133. SI magnet quadrupole q20 maximum strength
  134. SI magnet quadrupole q20 number
  135. SI magnet quadrupole q20 physical length
  136. SI magnet quadrupole q30 hardedge length
  137. SI magnet quadrupole q30 maximum field at pole tip
  138. SI magnet quadrupole q30 maximum gradient
  139. SI magnet quadrupole q30 maximum integrated gradient
  140. SI magnet quadrupole q30 maximum integrated strength
  141. SI magnet quadrupole q30 maximum strength
  142. SI magnet quadrupole q30 number
  143. SI magnet quadrupole q30 physical length
  144. SI magnet sextupole bore diameter
  145. SI magnet sextupole coupling-corrector families
  146. SI magnet sextupole coupling-corrector number
  147. SI magnet sextupole hardedge length
  148. SI magnet sextupole hardedge sextupolar field maximum
  149. SI magnet sextupole hardedge strength maximum
  150. SI magnet sextupole integrated sextupolar field maximum
  151. SI magnet sextupole maximum horizontal corrector strength
  152. SI magnet sextupole maximum horizontal dipolar field
  153. SI magnet sextupole maximum integrated horizontal dipolar field
  154. SI magnet sextupole maximum integrated sextupolar field gradient
  155. SI magnet sextupole maximum integrated sextupole strength
  156. SI magnet sextupole maximum integrated skew quadrupole gradient
  157. SI magnet sextupole maximum integrated skew quadrupole strength
  158. SI magnet sextupole maximum integrated vertical dipolar field
  159. SI magnet sextupole maximum sextupolar field at pole tip
  160. SI magnet sextupole maximum sextupolar field gradient
  161. SI magnet sextupole maximum sextupole strength
  162. SI magnet sextupole maximum skew quadrupole strength
  163. SI magnet sextupole maximum vertical corrector strength
  164. SI magnet sextupole maximum vertical dipolar field
  165. SI magnet sextupole number
  166. SI magnet sextupole orbit-corrector horizontal families
  167. SI magnet sextupole orbit-corrector vertical families
  168. SI magnet sextupole sd2j number
  169. SI magnet sextupole sd2k number
  170. SI optics beam divergence horizontal dipole bc
  171. SI optics beam divergence horizontal long straight section
  172. SI optics beam divergence horizontal short straight section
  173. SI optics beam divergence vertical dipole bc
  174. SI optics beam divergence vertical long straight section
  175. SI optics beam divergence vertical short straight section
  176. SI optics beam size horizontal dipole bc
  177. SI optics beam size horizontal long straight section
  178. SI optics beam size horizontal short straight section
  179. SI optics beam size vertical dipole bc
  180. SI optics beam size vertical long straight section
  181. SI optics beam size vertical short straight section
  182. SI optics beta center BC horizontal
  183. SI optics beta center BC vertical
  184. SI optics beta center SSA horizontal
  185. SI optics beta center SSA vertical
  186. SI optics beta center SSB horizontal
  187. SI optics beta center SSB vertical
  188. SI optics betatron frequency horizontal
  189. SI optics betatron frequency vertical
  190. SI optics damping partition number horizontal
  191. SI optics damping partition number horizontal dipole
  192. SI optics damping partition number longitudinal
  193. SI optics damping partition number longitudinal dipole
  194. SI optics damping partition number vertical
  195. SI optics damping partition number vertical dipole
  196. SI optics default mode
  197. SI optics energy loss per turn IDS
  198. SI optics energy loss per turn dipole
  199. SI optics linear chromaticity horizontal
  200. SI optics linear chromaticity vertical
  201. SI optics linear momentum compaction
  202. SI optics linear momentum compaction dipole
  203. SI optics linear slip phase
  204. SI optics linear slip phase dipole
  205. SI optics max beam current
  206. SI optics natural bunch duration
  207. SI optics natural bunch duration dipole
  208. SI optics natural bunch length
  209. SI optics natural bunch length dipole
  210. SI optics natural emittance
  211. SI optics natural emittance dipole
  212. SI optics natural emittance id
  213. SI optics natural energy spread
  214. SI optics natural energy spread dipole
  215. SI optics natural linear chromaticity horizontal
  216. SI optics natural linear chromaticity vertical
  217. SI optics overvoltage
  218. SI optics radiation damping time horizontal
  219. SI optics radiation damping time horizontal dipole
  220. SI optics radiation damping time longitudinal
  221. SI optics radiation damping time longitudinal dipole
  222. SI optics radiation damping time vertical
  223. SI optics radiation damping time vertical dipole
  224. SI optics radiation integral i1
  225. SI optics radiation integral i1 dipole
  226. SI optics radiation integral i1 id
  227. SI optics radiation integral i2
  228. SI optics radiation integral i2 dipole
  229. SI optics radiation integral i2 id
  230. SI optics radiation integral i3
  231. SI optics radiation integral i3 dipole
  232. SI optics radiation integral i3 id
  233. SI optics radiation integral i4
  234. SI optics radiation integral i4 dipole
  235. SI optics radiation integral i4 id
  236. SI optics radiation integral i5
  237. SI optics radiation integral i5 dipole
  238. SI optics radiation integral i5 id
  239. SI optics radiation integral i6
  240. SI optics radiation integral i6 dipole
  241. SI optics radiation integral i6 id
  242. SI optics radiation power IDS
  243. SI optics radiation power dipole
  244. SI optics rf energy acceptance
  245. SI optics synchronous phase
  246. SI optics synchrotron frequency
  247. SI optics total energy loss per turn
  248. SI optics total radiation power
  249. SI optics transverse coupling
  250. SI optics tune horizontal
  251. SI optics tune synchrotron
  252. SI optics tune vertical
  253. SI rf frequency
  254. SI rf harmonic number
  255. SI rf natural bunch length
  256. SI rf peak voltage

primitive parameters

  1. SI beam current
  2. SI beam energy
  3. SI bpm number
  4. SI error alignment bpm
  5. SI error alignment dipole
  6. SI error alignment girder
  7. SI error alignment quadrupole
  8. SI error alignment sextupole
  9. SI error excitation dipole
  10. SI error excitation quadrupole
  11. SI error excitation sextupole
  12. SI error gradient dipole
  13. SI error ripple dipole
  14. SI error ripple quadrupole
  15. SI error ripple sextupole
  16. SI error roll dipole
  17. SI error roll girder
  18. SI error roll quadrupole
  19. SI error roll sextupole
  20. SI error vibration dipole
  21. SI error vibration quadrupole
  22. SI error vibration sextupole
  23. SI id sabia magnetic gap
  24. SI id sabia maximum k
  25. SI id sabia period length
  26. SI lattice beam plane height
  27. SI lattice circumference
  28. SI lattice long straight section length
  29. SI lattice short straight section length
  30. SI lattice symmetry
  31. SI lattice type
  32. SI lattice version
  33. SI magnet chf maximum strength
  34. SI magnet chf number
  35. SI magnet chs maximum strength
  36. SI magnet chs number
  37. SI magnet cvf maximum strength
  38. SI magnet cvf number
  39. SI magnet cvs maximum strength
  40. SI magnet cvs number
  41. SI magnet dipole b1 deflection angle
  42. SI magnet dipole b1 hardedge length
  43. SI magnet dipole b1 integrated quadrupole strength
  44. SI magnet dipole b1 integrated sextupole strength
  45. SI magnet dipole b1 magnetic full gap
  46. SI magnet dipole b1 number
  47. SI magnet dipole b1 physical length
  48. SI magnet dipole b1 quadrupole gradient flexibility
  49. SI magnet dipole b2 deflection angle
  50. SI magnet dipole b2 hardedge length
  51. SI magnet dipole b2 integrated quadrupole strength
  52. SI magnet dipole b2 integrated sextupole strength
  53. SI magnet dipole b2 magnetic full gap
  54. SI magnet dipole b2 number
  55. SI magnet dipole b2 physical length
  56. SI magnet dipole b2 quadrupole gradient flexibility
  57. SI magnet dipole bc effective length
  58. SI magnet dipole bc hf deflection angle
  59. SI magnet dipole bc hf magnetic full gap
  60. SI magnet dipole bc hf number
  61. SI magnet dipole bc hf peak field
  62. SI magnet dipole bc integrated gradient
  63. SI magnet dipole bc lf deflection angle
  64. SI magnet dipole bc lf hardedge length
  65. SI magnet dipole bc lf magnetic full gap
  66. SI magnet dipole bc lf number
  67. SI magnet dipole bc magnetic full gap
  68. SI magnet dipole bc number
  69. SI magnet dipole bc physical length
  70. SI magnet qsf maximum strength
  71. SI magnet qsf number
  72. SI magnet quadrupole bore diameter
  73. SI magnet quadrupole q14 hardedge length
  74. SI magnet quadrupole q14 maximum strength
  75. SI magnet quadrupole q14 number
  76. SI magnet quadrupole q14 physical length
  77. SI magnet quadrupole q20 hardedge length
  78. SI magnet quadrupole q20 maximum strength
  79. SI magnet quadrupole q20 number
  80. SI magnet quadrupole q20 physical length
  81. SI magnet quadrupole q30 hardedge length
  82. SI magnet quadrupole q30 maximum strength
  83. SI magnet quadrupole q30 number
  84. SI magnet quadrupole q30 physical length
  85. SI magnet sextupole bore diameter
  86. SI magnet sextupole coupling-corrector families
  87. SI magnet sextupole coupling-corrector number
  88. SI magnet sextupole hardedge length
  89. SI magnet sextupole integrated sextupolar field maximum
  90. SI magnet sextupole maximum horizontal corrector strength
  91. SI magnet sextupole maximum integrated sextupole strength
  92. SI magnet sextupole maximum integrated skew quadrupole strength
  93. SI magnet sextupole maximum vertical corrector strength
  94. SI magnet sextupole number
  95. SI magnet sextupole orbit-corrector horizontal families
  96. SI magnet sextupole orbit-corrector vertical families
  97. SI magnet sextupole sd2j number
  98. SI magnet sextupole sd2k number
  99. SI optics beam divergence horizontal dipole bc
  100. SI optics beam divergence horizontal long straight section
  101. SI optics beam divergence horizontal short straight section
  102. SI optics beam divergence vertical dipole bc
  103. SI optics beam divergence vertical long straight section
  104. SI optics beam divergence vertical short straight section
  105. SI optics beam size horizontal dipole bc
  106. SI optics beam size horizontal long straight section
  107. SI optics beam size horizontal short straight section
  108. SI optics beam size vertical dipole bc
  109. SI optics beam size vertical long straight section
  110. SI optics beam size vertical short straight section
  111. SI optics beta center BC horizontal
  112. SI optics beta center BC vertical
  113. SI optics beta center SSA horizontal
  114. SI optics beta center SSA vertical
  115. SI optics beta center SSB horizontal
  116. SI optics beta center SSB vertical
  117. SI optics damping partition number vertical
  118. SI optics damping partition number vertical dipole
  119. SI optics default mode
  120. SI optics energy loss per turn IDS
  121. SI optics linear chromaticity horizontal
  122. SI optics linear chromaticity vertical
  123. SI optics max beam current
  124. SI optics natural linear chromaticity horizontal
  125. SI optics natural linear chromaticity vertical
  126. SI optics radiation integral i1 dipole
  127. SI optics radiation integral i1 id
  128. SI optics radiation integral i2 dipole
  129. SI optics radiation integral i2 id
  130. SI optics radiation integral i3 dipole
  131. SI optics radiation integral i3 id
  132. SI optics radiation integral i4 dipole
  133. SI optics radiation integral i4 id
  134. SI optics radiation integral i5 dipole
  135. SI optics radiation integral i5 id
  136. SI optics radiation integral i6 dipole
  137. SI optics radiation integral i6 id
  138. SI optics transverse coupling
  139. SI optics tune horizontal
  140. SI optics tune vertical
  141. SI rf harmonic number
  142. SI rf peak voltage