| ID |
Date |
Author |
Status |
Type |
Category |
Important |
Subject |
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1165
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Tue Dec 9 08:00:00 2025 |
KD MJ RC DN | Under Process | Shift summary | Linac Commissionning | Ring Commissioning |
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shift du 09 décembre 2025 - 70 MeV et 40 MeV | |
8h : mise en chauffe en remote (modulateur, cyclage, frigo/chillers, laser)
Stockage 70MeV ok, le faisceau MRSV semble gros en horizontal (cavité RF 250kV)
e-:
attenuateur section : 0.18dB
phase section : 252°
chiller: 28.4°C
Freq: 500.03165 MHz
phase shifter manuel : 4870
longueur paquet ~ 40ps
cavité FP:
TZ: -1.75mm
phases 33MHz : [synchro, CFP] = [184° 343.5°]
phase 500MHz : 9.1V (negative)
17h: passage à 40MeV, steerer anneau à 0
e-:
attenuateur section : 3.77dB
phase section : 214°
chiller: 28.4°C
Freq: 500.11851 MHz
phase shifter manuel : 8600
longueur paquet pas assez de MRSV pour la mesure
cavité FP:
TZ: -1.75mm
phases 33MHz : [synchro, CFP] = [184° 300.6°]
phase 500MHz : 4.2V (positive)
=========================================
X-rays :
** 70 MeV
Scan vertical FPC + Mesure taille source avec fente 1
Prises de spectres + calib feuille Pb et Au
** 40 MeV
Prise de spectres + calib feuille Sn |
| Attachment 1: orbite_40MeV.png
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| Attachment 2: orbite_70MeV.png
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| Attachment 3: TBTsum_40MeV.png
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| Attachment 4: TBTsum_70MeV.png
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| Attachment 5: 2025-12-09_13_38_35_OBL_DG_MRSV_01-CCD_01_RAW.png
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| Attachment 6: 2025-12-09_17_53_11_OBL_DG_MRSV_01-CCD_01_RAW.png
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1164
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Fri Dec 5 14:48:46 2025 |
Marie Julien Hayg Sophie | | Shift summary | LI | TL | LE | Ring |
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Matching ring-TL - Recherche des bons twiss pour la TL | |
Programme shift : etudes matching anneau-TL - Recherche param twiss TL
Valeurs ideales TL "de Julien" : betaX = 36 betaY = 36 alphaX = -4.5 alphaY = -4.5 ( = figure of merit tres petit)
==================================================================
Mesures param twiss Q1 (quad scan Q1) - charge ~ 100 pC - 50 MeV
**** Soleno = 230
Compresseur = 55000
emitX = 1.8 betaX = 22 alphaX = -7.5
emitY = 1.5 betaY = 7 alphaY = -1.4
Compresseur = 45000
emitX = 1.7 betaX = 14 alphaX = -5.5
emitY = 1.2 betaY = 4 alphaY = -1.1
Compresseur = 65000
emitX = 2.3 betaX = 25 alphaX = -9
emitY = 3.2 betaY = 7 alphaY = -1.6
Compresseur = 95000
emitX = 2.6 betaX = 11 alphaX = -4.
emitY = 3.3 betaY = 9 alphaY = -2.
**** Compresseur = 95000
Soleno = 220
emitX = 7 betaX = 5 alphaX = -2
emitY = 5 betaY = 4 alphaY = -0.5
Soleno = 200
emitX = 13 betaX = 10 alphaX = 0.85
emitY = 10 betaY = 35 alphaY = 0.6
Soleno = 240
emitX = 7.4 betaX = 18 alphaX = -4.3
emitY = 12 betaY = 50 alphaY = -6
SIMU matching : merit = 9
Soleno = 235
emitX = 2.6 betaX = 14 alphaX = -4.
emitY = 5.4 betaY = 21 alphaY = -3.6
Soleno = 238
emitX = 3.8 betaX = 18 alphaX = -4.3
emitY = 7 betaY = 34 alphaY = -5.2
SIMU matching : merit = 24
Soleno = 245
emitX = 8.8 betaX = 30.4 alphaX = -6.5
emitY = 26 betaY = 81.6 alphaY = -8.5
SIMU matching : merit = 10^-25 ==> Q1-Q7 NO backracked sortie linac: -2.02 / 4.76 / -3.176 / 2.0 / 1.62 / -4.085 / 3.98
Q1-Q7 BACKTRACKED -1.88 / 4.74 / -3.28 / 1.99 / 1.69 / -4.03 / 3.85
Essai de stockage : cf screenshot
2 Remarques :
1) 2 figures of merit tres petites ~ 10^-20 qui donnent des valeurs de TL differentes ....
- Valeurs ideales TL "de Julien" : betaX = 36 betaY = 36 alphaX = -4.5 alphaY = -4.5
- Valeurs du jour : betaX = 30.4 betaY = 81.6 alphaX = -6.5 alphaY = -8.5
A suivre - Trouver Bonne figure of merit + minimisation emittance ....
2) Valeurs QUADs "QP3" utilisee dans la simu RING (quads autour de l'IP) :
QP3 SIMU julien : - 6.7 A
QP3 REEL :
c1_qp8 = -6.02
c2_qp8 = -6.03
c1_qp9 = -6.11
c2_qp9 = -6.0
==> ~ 0.7 A de difference - Pour les autres quads : SIMU vs REEL sont proches.
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| Attachment 1: Screenshot_from_2025-12-05_18-26-56.png
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1163
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Fri Dec 5 08:31:59 2025 |
Entered by Super Team from 134.158.195.141 on Fri Dec 5 08:31:45 2025 | Under Process | Shift summary | Ring Commissioning |
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08h31 Warm-up ThomX: Modulator, Laser, Fridge
08h36 Chillers were started, cycling all magnets.
10h07 HV is ON
10h09 HV set to 1215 V
10h330 Beam is in the ring 70 MeV |
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1162
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Thu Dec 4 08:59:07 2025 |
Entered by Super Team from 134.158.195.141 on Thu Dec 4 08:58:52 2025 | | Shift summary | LI | TL | Ring |
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Preparation/check of the 70 MeV WP for X-ray run | |
Goal: preparation and checking the machine operation at 70 MeV and 40 MeV (ideally with X-rays)
8h54 Warming up
RF section 29.20 C -> 28.5 C
9h45 Beam on
Start at 50 MeV and then going to 70 MeV with 70MeV_Xrays_I3I4_20kpA_flatVertorbit_vertSigma_122um__20250821_14_36_08.txt
In this recette the dipoles are at 253.78 A which is 2A lower than nominal current for 70 MeV. The goal is to go to the nominal value.
Phase scans, beam is transported to the ring. Only few turns.
Scan of he RF cavity phase.
scope 192.168.229.22 which used to monitor losses and charge is not accesible as someone else is connected to it from srv 3 with 192.168.229.92. We need control of this scope in the CR.
After also checking it locally, the signals were not set, cable unplugged.
12h30 Problem with SST. Nicolas is checking.
Optimization of the injection. HCOR/VCOR are set to zero. Storage obtained; RF ON freq 500.031690 MHz
Several interlocks shutter laser linac
13h20 Stop for the visit
14h47 beam on
Daniele worked all the afternoon with the students. FPC is changed for 70 MeV.
MRSV does not start; need help for it
Work on the 70 MeV. orbit is corrected. The final tutning should be checked with X rays.
At the end we understood thqt the EL dip is set to 159.3 A. The orbit was recorrected with only the EL dip set to 253.8 A (the difference in the orbits is shown in the scrennshot). The rest of the elements of the EL are should be scaled to 70 Mev (it will not impact the orbit as dipole)
The recetter is saved:
70MeV_ELdip253p8A_20251204_18_10_12.txt
70MeV_with ELat50MeV_20251204_17_10_20.txt
The BLM signals during the shift were moving in time: to be understood, maybe timing problem.
This configuration must be checked with MRSV and/or X-rays to confirm the X-ray flux |
| Attachment 1: Screenshot_from_2025-12-04_16-10-14.png
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| Attachment 2: Screenshot_from_2025-12-04_17-38-20.png
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| Attachment 3: Screenshot_from_2025-12-04_18-01-39_WITH_EL.png
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1161
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Wed Dec 3 11:09:12 2025 |
Entered by Super Team from 134.158.195.141 on Wed Dec 3 11:08:54 2025 | Not Fixed | Info | RF Anneau | Linac Commissionning | Ring Commissioning |
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Demarrage ThomX |
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Soucis Septum : Maher help 
C'est résolu  on est passé par les Atk pannel, et un moment il nous a écouté 
Faisceau dans l'anneau avec recette : recipe_recipe_LI_TL_RI_good_20251125_18_31_45.txt
machine plutot stable.
Après la prise de donnée avec la cavité.
Quelques mesures machine alignée sur la section (recette du elog 1074)
-- Soléno scan et quad scan
Stop : 18h45
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1160
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Tue Dec 2 09:28:15 2025 |
Entered by Super Team from 134.158.205.28 on Tue Dec 2 09:27:54 2025 | Not Fixed | Info | LI | TL | LE | Ring | Diag | Linac Commissionning | Ring Commissioning |
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Shift ThomX/Xrays : Soucis démarrage |
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Last Recettes for 50 MeV:
recipe_recipe_LI_TL_RI_good_20251127_12_42_51.txt
recipe_recipe_LI_TL_RI_good_20251125_16_42_01.txt
Soucis machine : 
- Redpytaya : impossible de les démarrer
- Wavecatcher : démarrent mais soucis "trigger"
Vincent pense que cela ne vient pas de la synchro, les signaux semblent ok
Peut-etre soucis au niveau du trig du Laser, si qq peut nous aider ...
c'est un pB soft...
redpitaya 2 3 4 baie 17 redémarées (serveur en carafe)
wac = 1 2 3 redemarré (serveur en carafe)
redémarrage Klystron
signaux RF sur les redpitaya
PB synchronisation du laser FC avec le 500MHz LI (screen shot ICT LI)
Soucis avec le laser qui ne s'allumait plus, on a du le faire depuis la salle Laser, avec Kevin en visio.
18h : Stop ThomX |
| Attachment 1: Screenshot-ICTLI.png
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1159
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Thu Nov 27 08:01:20 2025 |
KD | Under Process | Shift summary | Linac Commissionning | Ring Commissioning |
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shift du 27 novembre 2025 | |
8h: mise en chauffe à distance (modulateur, frigo/chiller, laser, cyclage)
9h30: Chargement de la recette : "recipe_recipe_LI_TL_RI_all_20251126_09_35_14.txt" pour référence
ajustement energie linac et phase cavité RF pour réduire l'oscillation synchrotron.
10h43: prise de référence, dispersion -3cm
10h50: recette dispersion Viktor V1, dispersion -7.3cm
10h55: recette dispersion Viktor V2, dispersion +10.3cm
11h: essaie recette Julien, pas de charge transmise sur ict3. Faisceau très défocalisé et ligne trop fermée (très sensible aux petites variations pointé, énergie etc.)
11h30: essaie recette référence avec feedback injection ring
11h50: recette dispersion Viktor V3, dispersion -9.5cm
12h: effet stockage sur faisceau,
1) le faisceau est stocké avec la recette de référence, optimisé avec la phase cavité RF et l'energie ==> faible oscillation synchrotron mais stockage instable (grosses pertes en fin de stockage)
2) le faisceau est optimisé pour augmenté la qualité du stockage. Faible jitter d'injection et stockage stable (sans perte) mais grosses oscillations synchrotron
Les deux mesures de longueur de paquet montre qu'un mauvais stockage peut permettre d'avoir un meilleur faisceau en longitidinale alors qu'un bon stockage peu vite dégrader le faisceau. QUESTION: est ce uniquement en lien avec l'oscillation synchrotron ? Est ce que le fait que le faisceau soit vite dégradé améliore la stabilité du stockage ?
===> Au final il ne semble pas y avoir un fort impact sur les jitters en fonction des différents points de dispersion. Le point à 11h30, est le point de référence refait avec le feedback d'injection anneau, il semble moins bon.
Sur l'image le point marque la valeur moyenne et la barre d'erreur l'écart type des 100 mesures (jitter), pour BPM.02-LIB.03 (BPM1) et BPM.04-LIB.03 (BPM3)
*** Mesures faites pour chaque points ***
- mean / std, de 100 acquisitions des positions BPM X et Y (des 12 BPM de l'anneau) pour le numéro buffer (0, 14, 100, 500, 1000, 1999)
- Archivage mesure le stockage et autre donnée
- image de l'orbite en comparaison avec la référence
- image oscillations synchrotron
- image TBTsum
*** Programme ***
Injection stability en fonction de la dispersion 100 pC :
Quantify injector stability vs. TL dispersion
Goal: Understand and minimize the shot-to-shot jitter at ring injection by tuning TL dispersion.
Workflow:
Vary dispersion in the TL in a controlled way (use > 5 optics settings).
For each dispersion setting:
- Measure horizontal and vertical jitter in the ring (turn-by-turn).
- Record injected charge, storage efficiency and orbit offset at injection.
Try to match TL dispersion to ring dispersion at injection and identify the setting that minimizes jitter.
Summarise the best TL dispersion setting and assign it as standard optics.
Deliverables:
Jitter vs. TL dispersion curves.
TL optics for minimum jitter.
Beam time: ~2 shifts.
*** après midi ***
- problème RI-C1 QP.05, problème : electrodes désoudées ==> ressoudées avec Jean-Noel.
- immersion recherche : quelques images de radiofraphie (portable, carte banquaire, baume à lèvre) ==> cavité extrèmement instable !
17h45 : Stop ThomX |
| Attachment 1: multi_disps.txt
|
# Values shown are for the Downstream End of each Element (Girder at ref point):
# Index name key s l K1 eta_a etap_a beta_a alpha_a beta_b alpha_b
0 BEGINNING Beginning_Ele 0.000 --- --- 0.0000E+00 0.0000E+00 3.4460E+01 -4.2400E+00 3.3940E+01 -4.3400E+00
4 QP1L Quadrupole 0.554 0.157 -2.8605E+00 0.0000E+00 0.0000E+00 4.2139E+01 -2.3069E+01 3.6267E+01 1.2050E+01
8 QP2L Quadrupole 0.904 0.157 1.2447E+01 0.0000E+00 0.0000E+00 4.3958E+01 6.8419E+01 3.8396E+01 -5.7609E+01
10 QP3L Quadrupole 1.254 0.157 -1.0657E+01 0.0000E+00 0.0000E+00 1.2759E+01 1.2781E+01 6.9835E+01 3.9379E+01
16 QP4L Quadrupole 2.800 0.157 1.3908E+01 4.3505E-01 -2.1774E-01 5.2671E+00 6.8472E-01 2.6443E+00 7.9127E-01
25 QP5L Quadrupole 6.083 0.157 4.3710E+00 -2.6604E-01 -4.0250E-02 3.3854E+00 2.1830E+00 4.5194E+00 -4.2245E+00
29 QP6L Quadrupole 7.329 0.157 -1.2013E+01 6.1162E-01 2.0776E+00 1.6670E+00 -6.3848E+00 1.7119E+01 2.5043E+01
31 QP7L Quadrupole 7.679 0.157 1.3694E+01 1.1540E+00 -3.2350E-01 6.8650E+00 1.0526E+00 6.1700E+00 8.0525E-01
47 FIN_TL Marker 12.161 0.000 --- 2.0372E-02 -3.5510E-05 3.4406E+00 1.1859E-02 2.7439E+00 -1.1781E-02
# Values shown are for the Downstream End of each Element (Girder at ref point):
# Index name key s l K1 eta_a etap_a beta_a alpha_a beta_b alpha_b
0 BEGINNING Beginning_Ele 0.000 --- --- 0.0000E+00 0.0000E+00 3.4460E+01 -4.2400E+00 3.3940E+01 -4.3400E+00
4 QP1L Quadrupole 0.554 0.157 -2.8499E+00 0.0000E+00 0.0000E+00 4.2128E+01 -2.2998E+01 3.6277E+01 1.1991E+01
8 QP2L Quadrupole 0.904 0.157 1.2444E+01 0.0000E+00 0.0000E+00 4.3908E+01 6.8383E+01 3.8452E+01 -5.7739E+01
10 QP3L Quadrupole 1.254 0.157 -1.0662E+01 0.0000E+00 0.0000E+00 1.2730E+01 1.2781E+01 6.9970E+01 3.9458E+01
16 QP4L Quadrupole 2.800 0.157 1.3862E+01 4.3528E-01 -2.1481E-01 5.2761E+00 6.8065E-01 2.6438E+00 8.1676E-01
25 QP5L Quadrupole 6.083 0.157 4.3419E+00 -2.5678E-01 -4.4937E-02 3.4051E+00 2.1813E+00 4.5165E+00 -4.2290E+00
29 QP6L Quadrupole 7.329 0.157 -1.2022E+01 6.0629E-01 2.0548E+00 1.6625E+00 -6.3842E+00 1.7135E+01 2.5085E+01
31 QP7L Quadrupole 7.679 0.157 1.3711E+01 1.1422E+00 -3.2553E-01 6.8650E+00 1.0526E+00 6.1700E+00 8.0525E-01
47 FIN_TL Marker 12.161 0.000 --- 2.9109E-15 -3.5510E-05 3.4406E+00 1.1859E-02 2.7439E+00 -1.1781E-02
# Values shown are for the Downstream End of each Element (Girder at ref point):
# Index name key s l K1 eta_a etap_a beta_a alpha_a beta_b alpha_b
0 BEGINNING Beginning_Ele 0.000 --- --- 0.0000E+00 0.0000E+00 3.4460E+01 -4.2400E+00 3.3940E+01 -4.3400E+00
4 QP1L Quadrupole 0.554 0.157 -2.8506E+00 0.0000E+00 0.0000E+00 4.2129E+01 -2.3002E+01 3.6276E+01 1.1995E+01
8 QP2L Quadrupole 0.904 0.157 1.2448E+01 0.0000E+00 0.0000E+00 4.3906E+01 6.8413E+01 3.8453E+01 -5.7762E+01
10 QP3L Quadrupole 1.254 0.157 -1.0663E+01 0.0000E+00 0.0000E+00 1.2716E+01 1.2797E+01 6.9987E+01 3.9466E+01
16 QP4L Quadrupole 2.800 0.157 1.3816E+01 4.3551E-01 -2.1189E-01 5.2913E+00 6.7717E-01 2.6419E+00 8.3734E-01
25 QP5L Quadrupole 6.083 0.157 4.3105E+00 -2.4757E-01 -4.9608E-02 3.4257E+00 2.1798E+00 4.5204E+00 -4.2339E+00
29 QP6L Quadrupole 7.329 0.157 -1.2028E+01 6.0096E-01 2.0320E+00 1.6581E+00 -6.3836E+00 1.7151E+01 2.5129E+01
31 QP7L Quadrupole 7.679 0.157 1.3728E+01 1.1305E+00 -3.2756E-01 6.8650E+00 1.0526E+00 6.1700E+00 8.0525E-01
47 FIN_TL Marker 12.161 0.000 --- -2.0372E-02 -3.5510E-05 3.4406E+00 1.1859E-02 2.7439E+00 -1.1781E-02
# Values shown are for the Downstream End of each Element (Girder at ref point):
# Index name key s l K1 eta_a etap_a beta_a alpha_a beta_b alpha_b
0 BEGINNING Beginning_Ele 0.000 --- --- 0.0000E+00 0.0000E+00 3.4460E+01 -4.2400E+00 3.3940E+01 -4.3400E+00
4 QP1L Quadrupole 0.554 0.157 -2.8526E+00 0.0000E+00 0.0000E+00 4.2131E+01 -2.3016E+01 3.6274E+01 1.2006E+01
8 QP2L Quadrupole 0.904 0.157 1.2456E+01 0.0000E+00 0.0000E+00 4.3907E+01 6.8464E+01 3.8449E+01 -5.7784E+01
10 QP3L Quadrupole 1.254 0.157 -1.0666E+01 0.0000E+00 0.0000E+00 1.2697E+01 1.2821E+01 7.0000E+01 3.9468E+01
16 QP4L Quadrupole 2.800 0.157 1.3749E+01 4.3585E-01 -2.0761E-01 5.3147E+00 6.7242E-01 2.6411E+00 8.6497E-01
25 QP5L Quadrupole 6.083 0.157 4.2657E+00 -2.3404E-01 -5.6254E-02 3.4551E+00 2.1775E+00 4.5285E+00 -4.2408E+00
29 QP6L Quadrupole 7.329 0.157 -1.2037E+01 5.9327E-01 1.9985E+00 1.6517E+00 -6.3828E+00 1.7175E+01 2.5190E+01
31 QP7L Quadrupole 7.679 0.157 1.3752E+01 1.1134E+00 -3.3051E-01 6.8650E+00 1.0526E+00 6.1700E+00 8.0525E-01
47 FIN_TL Marker 12.161 0.000 --- -5.0000E-02 -3.5510E-05 3.4406E+00 1.1859E-02 2.7439E+00 -1.1781E-02
# Values shown are for the Downstream End of each Element (Girder at ref point):
# Index name key s l K1 eta_a etap_a beta_a alpha_a beta_b alpha_b
0 BEGINNING Beginning_Ele 0.000 --- --- 0.0000E+00 0.0000E+00 3.4460E+01 -4.2400E+00 3.3940E+01 -4.3400E+00
4 QP1L Quadrupole 0.554 0.157 -2.8450E+00 0.0000E+00 0.0000E+00 4.2123E+01 -2.2964E+01 3.6281E+01 1.1964E+01
8 QP2L Quadrupole 0.904 0.157 1.2429E+01 0.0000E+00 0.0000E+00 4.3900E+01 6.8288E+01 3.8468E+01 -5.7716E+01
10 QP3L Quadrupole 1.254 0.157 -1.0657E+01 0.0000E+00 0.0000E+00 1.2760E+01 1.2741E+01 6.9966E+01 3.9449E+01
16 QP4L Quadrupole 2.800 0.157 1.3973E+01 4.3472E-01 -2.2185E-01 5.2383E+00 6.8967E-01 2.6569E+00 7.5983E-01
25 QP5L Quadrupole 6.083 0.157 4.4229E+00 -2.7897E-01 -3.3064E-02 3.3534E+00 2.1853E+00 4.5139E+00 -4.2169E+00
29 QP6L Quadrupole 7.329 0.157 -1.2003E+01 6.1951E-01 2.1104E+00 1.6740E+00 -6.3857E+00 1.7093E+01 2.4975E+01
31 QP7L Quadrupole 7.679 0.157 1.3667E+01 1.1710E+00 -3.2055E-01 6.8650E+00 1.0526E+00 6.1700E+00 8.0525E-01
47 FIN_TL Marker 12.161 0.000 --- 5.0000E-02 -3.5510E-05 3.4406E+00 1.1859E-02 2.7439E+00 -1.1781E-02
|
| Attachment 2: recipe_recipe_LI_TL_RI_all_20251126_09_35_14.txt
|
LI/PS/COL.01/currentSetpointPM : <type 'float'> : 66.47
LI/PS/COL.02/currentSetpointPM : <type 'float'> : 230.0
EL/PS/QP.01/currentSetpointPM : <type 'float'> : -3.94
EL/PS/QP.02/currentSetpointPM : <type 'float'> : 5.13
EL/PS/QP.03/currentSetpointPM : <type 'float'> : -2.47
EL/PS/QP.04/currentSetpointPM : <type 'float'> : -3.28
EL/PS/QP.05/currentSetpointPM : <type 'float'> : 3.01
EL/PS/QP.06/currentSetpointPM : <type 'float'> : 1.99
EL/PS/QP.07/currentSetpointPM : <type 'float'> : -2.84
LI/PS/STR.01-H.01/currentSetpointPM : <type 'float'> : 0.744495394655
LI/PS/STR.01-V.01/currentSetpointPM : <type 'float'> : -2.55611182033
LI/PS/STR.02-V.01/currentSetpointPM : <type 'float'> : 3.14718161006
LI/PS/STR.02-H.01/currentSetpointPM : <type 'float'> : -2.87618448919
EL/PS/STR.02-V.01/currentSetpointPM : <type 'float'> : 0.0
EL/PS/STR.02-H.01/currentSetpointPM : <type 'float'> : 8.0
TL/PS/QP.01/currentSetpointPM : <type 'float'> : -0.1700483772
TL/PS/QP.02/currentSetpointPM : <type 'float'> : 3.5
TL/PS/QP.03/currentSetpointPM : <type 'float'> : -3.40148253
TL/PS/QP.04/currentSetpointPM : <type 'float'> : 2.02
TL/PS/QP.05/currentSetpointPM : <type 'float'> : 2.02
TL/PS/QP.06/currentSetpointPM : <type 'float'> : -3.7
TL/PS/QP.07/currentSetpointPM : <type 'float'> : 3.7
RI-C1-C2/PS/SP.03/currentSetpointPM : <type 'float'> : -1.83626944534
RI-C1/PS/QP.01/currentSetpointPM : <type 'float'> : 3.06436602905
RI-C1/PS/QP.02/currentSetpointPM : <type 'float'> : -1.44273612065
RI-C1/PS/QP.03/currentSetpointPM : <type 'float'> : -1.75851554175
RI-C1/PS/QP.04/currentSetpointPM : <type 'float'> : 3.25098431127
RI-C1/PS/QP.05/currentSetpointPM : <type 'float'> : -3.62669034804
RI-C1/PS/QP.06/currentSetpointPM : <type 'float'> : 2.41679703056
RI-C1/PS/QP.07/currentSetpointPM : <type 'float'> : 5.37507690285
RI-C1/PS/QP.08/currentSetpointPM : <type 'float'> : -6.01739765821
RI-C1/PS/QP.09/currentSetpointPM : <type 'float'> : -6.1066305017
RI-C1/PS/QP.10/currentSetpointPM : <type 'float'> : 5.42107968349
RI-C1/PS/QP.11/currentSetpointPM : <type 'float'> : 2.41073325341
RI-C1/PS/QP.12/currentSetpointPM : <type 'float'> : -3.74160359773
RI-C1-C2/PS/SP.01/currentSetpointPM : <type 'float'> : 0.276011295791
RI-C2/PS/QP.01/currentSetpointPM : <type 'float'> : 3.27755669647
RI-C2/PS/QP.02/currentSetpointPM : <type 'float'> : -1.59686996779
RI-C2/PS/QP.03/currentSetpointPM : <type 'float'> : -1.84944684805
RI-C2/PS/QP.04/currentSetpointPM : <type 'float'> : 3.33472861937
RI-C2/PS/QP.05/currentSetpointPM : <type 'float'> : -3.63782047595
RI-C2/PS/QP.06/currentSetpointPM : <type 'float'> : 2.37550666969
RI-C2/PS/QP.07/currentSetpointPM : <type 'float'> : 5.33582360514
RI-C2/PS/QP.08/currentSetpointPM : <type 'float'> : -6.03274378372
RI-C2/PS/QP.09/currentSetpointPM : <type 'float'> : -5.99504206123
RI-C2/PS/QP.10/currentSetpointPM : <type 'float'> : 5.31153116544
RI-C2/PS/QP.11/currentSetpointPM : <type 'float'> : 2.48463744172
RI-C2/PS/QP.12/currentSetpointPM : <type 'float'> : -3.76741453121
RI-C1-C2/PS/SP.02/currentSetpointPM : <type 'float'> : 3.81502301981
TL/PS/STR.01-V.01/currentSetpointPM : <type 'float'> : 0.0
TL/PS/STR.01-H.01/currentSetpointPM : <type 'float'> : 0.0
TL/PS/STR.02-V.01/currentSetpointPM : <type 'float'> : -8.0
TL/PS/STR.02-H.01/currentSetpointPM : <type 'float'> : -3.0
TL/PS/STR.03-V.01/currentSetpointPM : <type 'float'> : 0.794
TL/PS/STR.03-H.01/currentSetpointPM : <type 'float'> : 7.716
TL/PS/STR.04-V.01/currentSetpointPM : <type 'float'> : 4.753
TL/PS/STR.04-H.01/currentSetpointPM : <type 'float'> : 6.428
TL/PS/DPI.01/currentSetpointPM : <type 'float'> : 7.938
RI-C1/PS/STR.01-V.01/currentSetpointPM : <type 'float'> : 4.00889873052
RI-C1/PS/STR.01-H.01/currentSetpointPM : <type 'float'> : -2.94482865272
RI-C1/PS/STR.02-V.01/currentSetpointPM : <type 'float'> : -0.987669112358
RI-C1/PS/STR.02-H.01/currentSetpointPM : <type 'float'> : -1.76585719278
RI-C1/PS/STR.03-V.01/currentSetpointPM : <type 'float'> : -3.26026864154
RI-C1/PS/STR.03-H.01/currentSetpointPM : <type 'float'> : 0.00371314934889
RI-C1/PS/STR.04-V.01/currentSetpointPM : <type 'float'> : 5.72251814247
RI-C1/PS/STR.04-H.01/currentSetpointPM : <type 'float'> : 0.0969259217919
RI-C1/PS/STR.05-V.01/currentSetpointPM : <type 'float'> : 0.132553818996
RI-C1/PS/STR.05-H.01/currentSetpointPM : <type 'float'> : -2.59504238267
RI-C1/PS/STR.06-V.01/currentSetpointPM : <type 'float'> : -1.79567757428
RI-C1/PS/STR.06-H.01/currentSetpointPM : <type 'float'> : -4.85981209589
EL/PS/STR.01-H.01/currentSetpointPM : <type 'float'> : 0.0
EL/PS/DPI.01/currentSetpointPM : <type 'float'> : 0.0
RI-C2/PS/STR.01-V.01/currentSetpointPM : <type 'float'> : -2.71485643949
RI-C2/PS/STR.01-H.01/currentSetpointPM : <type 'float'> : -6.0376417579
RI-C2/PS/STR.02-V.01/currentSetpointPM : <type 'float'> : -0.664835392405
RI-C2/PS/STR.02-H.01/currentSetpointPM : <type 'float'> : -1.54646010356
RI-C2/PS/STR.03-V.01/currentSetpointPM : <type 'float'> : 4.28475016291
RI-C2/PS/STR.03-H.01/currentSetpointPM : <type 'float'> : 3.84379917319
RI-C2/PS/STR.04-V.01/currentSetpointPM : <type 'float'> : -7.71572597127
RI-C2/PS/STR.04-H.01/currentSetpointPM : <type 'float'> : 1.18413063336
RI-C2/PS/STR.05-V.01/currentSetpointPM : <type 'float'> : 0.586667664296
RI-C2/PS/STR.05-H.01/currentSetpointPM : <type 'float'> : 0.784765660279
RI-C2/PS/STR.06-V.01/currentSetpointPM : <type 'float'> : 1.86755579082
RI-C2/PS/STR.06-H.01/currentSetpointPM : <type 'float'> : 1.36213305755
EL/PS/STR.01-V.01/currentSetpointPM : <type 'float'> : 0.0
RI-C1/PS/DP.01/currentSetpointPM : <type 'float'> : 159.3
TL/PS/DP.01/currentSetpointPM : <type 'float'> : 159.3
EL/PS/DP.01/currentSetpointPM : <type 'float'> : 159.3
er/pe/inj_kick_ps/Voltage : <type 'float'> : 6344.0
er/pe/inj_kick_ps/Current : <type 'float'> : 40.0
er/pe/ext_kick_ps/Voltage : <type 'float'> : 6344.0
er/pe/ext_kick_ps/Current : <type 'float'> : 40.0
er/pe/pass_sept_ps/Current : <type 'float'> : 6.0
er/pe/pass_sept_ps/Voltage : <type 'float'> : 96.1500015259
TEST/HL/ThomX_PhotoCathode/Horizontal_Iris_Position_set : <type 'float'> : 5.003
TEST/HL/ThomX_PhotoCathode/Vertical_Iris_Position_set : <type 'float'> : 4.553
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| Attachment 3: Beam_no_opt.tif
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| Attachment 4: Beam_opt.tif
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| Attachment 5: BPM_jitters.png
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1158
|
Wed Nov 26 07:47:52 2025 |
KD MJ VM DN RC | Under Process | Shift summary | Linac Commissionning | Ring Commissioning |
|
shift du 26 novembre 2025 | |
7h50: mise en chauffe à distance (frigo/chiller, laser, modulateur, cyclage)
11h13 Beam is in the ring, 50 MeV, RF gun phase 268 dg. ==> 272 dg., Sect. phase 211 dg., Sect. Att. 2.35 dB. Linac sreerers H [0.74 -2.98], V [-2.56 3.0], Charges (BPMs) -112, -107, -112, -110 pA
16h: essaye de la recette "Mad180" pour injection dans l'anneau. Impossible car pas de charge transmise sur l'ict3
17h: changement solénoïde 180 --> 230A, on a un peu de charge transmise (70pC pour 100pC). +1A sur QP5 afin d'avoir un faisceau focalisé sur TL/BPM.03. Injection faible possible mais très sensible à la sortie linac (après 2 min plus de charge transmise ==> ligne trop fermée)
*** Spectres a differentes valeurs de bpmTL2_X, et avec la meme orbit a l'IP
bpmTL2 = 0 (~ 11h55)
spectre
bpmTL2 = - 4 (~ 12h00)
spectre
Image fente 1 ==> Taille source X : X = 310 , Y = 51
bpmTL2 = - 2 (~ 12h17)
spectre
Image fente 1 ==> Taille source X : X = 179 , Y = 45
bpmTL2 = 0 (~ 12h24)
spectre
Image fente 1 ==> Taille source X : X = 201 , Y = 58
bpmTL2 = + 4 (~ 12h35)
spectre
Image fente 1 ==> Taille source X : X = 170 , Y = 67
bpmTL2 = + 2 (~ 12h45)
spectre
Image fente 1 ==> Taille source X : X = 268 , Y = 62
bpmTL2 = 0 (~ 12h53)
spectre
Image fente 1 ==> Taille source X : X = 234 , Y = 53
** Spectre pris a differentes positions de detecteur
** Mesures avec diode calibree
~ 13h56 : diode alignee dans le faisceau (au centre, a la louche) - Fente2 : H = + 2 , V = - 11
Quelques deplacements dans le faisceau :
fente2 : H = + 2 ; V = - 11 ( ~ 14h55)
fente2 : H = + 2 ; V = - 21 ( ~ 15h01)
fente2 : H = + 10 ; V = - 21 ( ~ 15h05)
fente2 : H = - 10 ; V = - 21 ( ~ 15h07)
** Mesures longeur de paquet et injection
- Comparaison en fonction de la qualité du stockage:
* mesure de la longueur pour l'anneau non optimisé (après dérive), il y a des oscillations synchrotrons (~4mm pic-pic), le stockage est pas stable
* mesure de la longueur une fois l'anneau réoptimisé (énergie + 3° cavité RF)
- Comparaison taille faisceau VS amplitude cavité RF
==> pas d'effet visible du FBL (il faut peut être l'ajuster)
=====================================================================
Programme du jour : Spectres a differentes positon bpmTL2_X, avec meme orbite a l'IP
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| Attachment 1: Ring_CavityRamp.png
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| Attachment 2: Ring_optVSnoopt.png
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| Attachment 3: 20251126_1ms_cavityRAMP_250kV.tif
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| Attachment 4: 20251126_1ms_150kV_no_opt.tif
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| Attachment 5: 20251126_1ms_150kV_opt.tif
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| Attachment 6: 20251126_1ms_250kV_noFBL.tif
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| Attachment 7: 20251126_1ms_cavityRAMP_150kV.tif
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| Attachment 8: 20251126_1ms_cavityRAMP_200kV.tif
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1157
|
Tue Nov 25 09:32:03 2025 |
Entered by Super Team from 134.158.195.141 on Tue Nov 25 09:31:46 2025 | Under Process | Shift summary | Diag | Ring Commissioning |
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09h31 Warm-up ThomX: Modulator, Laser, Fridge
09h36 Chillers were started, cycling all magnets.
09h56 Unable to start MRSV and EL cameras. Need help.
10h33 HV is ON
10h40 HV set to 1215 V
11h24 Beam in the ring W/O RF
11h40 RF 100 kV, phase 3.7 dg. RF Gun phase 210 dg., Sect Att. 2.37 dB, Sect. phase 211 dg., Charges (BPMs) -161, -153, -158, -169 pC, Linac steerers H [0.88 -3.00], V [-2.52 3.08]. Receipt recipe_recipe_LI_TL_RI_good_20251106_16_23_16.txt
12h35 Vacuum interlock V1, restarted
Orbit correction, check with BBA and LOCO after adjusting the device indeces in MML.
16h46 Going to 70 MeV T sect. consigne 28.5ºC, Sect. Att. 0.137 dg., DP 255.8 A, TL/BPM02 X=-1.5 mm,
As it was discussed before, the dipoles for unknown reasons were set to - 2A from nominal current in the saved receipt. We changed the current to the nominal one. Beam tuning ongoing for 70 MeV.
recipe_recipe_LI_TL_RI_good_20251125_18_31_45.txt W/O correctots in the ring, Manual phase shifter 6129, RF phase 14 dg.
to be continued.
18h40 Stop thomx |
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1156
|
Mon Nov 24 13:22:59 2025 |
ND + JM + HG | Under Process | Shift summary | LI |
|
Prise de données 24/11 | |
9:15 Mise en chauffe
9h30 Arrivée du SPR: testsSSI ce matin => pas de faisceau avant midi => machine off
12h30 Mise en chauffe,cyclage aimants
13h10 Demarrage
Claquage a 1200V.
13h30 Faisceau
ND : ajustement de cameras
Soleno Scan
Mesure emittance @soleno
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1155
|
Fri Nov 21 08:02:04 2025 |
KD MJ DN Students | Under Process | Shift summary | Linac Commissionning | Ring Commissioning |
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shift du 21 novembre 2025 | |
8h: mise en chauffe en remote (modulateur, frigo/chillers, laser, cyclage)
9h: start
Recette chargée: 50MeV_100pC_MRSV_20251014_18_22_53
10h30: entrée casemate pour CFP
==> mauvais stockage ==> on charge la dernière recette : recipe_recipe_LI_TL_RI_all_20251107_16_22_24
Stockage bon - anneau stable - FPC totalement instable toute la journee
*** Mesure taille X-rays methode fente 1
*** Manip fluo
Spectre calib det Sn foil
Spectre echantillon prostate - feuille Sn sur prostate - X-rays sur support echantillon
Ensuite, spectre idem mais X-rays sur feuille Sn
Ensuite, feuille Sn retiree, spectre sur prostate (on pense ...) - 2 positions faiseau (la 2eme un peu plus centree)
Spectre rouleau fil a souder
*** Streak : cablage, phases a tuner
- câble refait sur la streak. Prise de donnée sur l'injection du faisceau sur 20 ms, et 1 ms autour de l'injection (avec et sans extraction du faisceau au bout de 10ms)
- reste à affiner la mesure (trig de la streak sur le pulse suivant)
**** Programme TP ****
- mesures rayons-X: fluorescence et mesure taille faisceau "edge methode", radiographie peut être
- mesure streak injection |
| Attachment 1: IMG-20251121-WA0003.jpg
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| Attachment 2: IMG-20251121-WA0005.jpg
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| Attachment 3: 20251121_185206.JPG
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1154
|
Thu Nov 20 09:26:33 2025 |
VM, IC | Under Process | Urgent | LI | TL | LE | Ring | Diag | Aimants | CC | Infra | Laser | Opt | RF Anneau | MECA | SY | Vide | Electronique | Linac Commissionning | Ring Commissioning |
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BBA Ring | |
Goal: Ring BBA
09h14 Unable to start thomx. Need help. Probably problem with cooling water.
12h35 Warm-up the modulator, Chillers started
12h42 Cycling all magnets
12h57 It seems that leds at LI/SST1 and TL/SST1 are ON.  . Fix. IHM ==>'Camera Power'==> 'Power 3'
13h42 HV is ON
14h06 Strange situation: the modulator works, but there are no radio frequency signals (see the screenshot).
15h46 Maher fix it. HV is ON
16h16 the modulator works, but there are no radio frequency signals
Need help from Maher to restart the pre-ampli.
16h34 Up to now, the beam was transported only till TL/SST.02. Very often we observed interlock (something happen in the IGLOO ?). After this probably the pre-ampli stopped operating. This is our observation. Moreover, several mistriggers.
For the RF cavity, there is the problem to set the Voltage. It can be done only manually by Mohamed.
The control of the iris thouth the ELLO com4 does not work. It says "COM4 not available".
Shift program even has not started.
16h54 STOP
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| Attachment 1: Errors.jpeg
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| Attachment 2: Screenshot_from_2025-11-20_14-04-53.png
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1153
|
Wed Nov 19 10:43:41 2025 |
HG + JM + ND (aprem) | Under Process | Info | LI | TL | LE |
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Shift mesure Twiss + Simu |
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8:30 : demarrage à distance
12:10 : QP7 Scan 1 (Phase section 210) optimum sur ligne dispersive
12:12 : QP7 Scan 1 (Phase section 213) largeur spot diminue
12:15 : QP7 Scan 1 (Phase section 215) largeur spot Augmente
Distribution du laser donne un faisceau avec plusieurs coeurs (sur QP7 etc ou lors de quad scans).
comparaison taille sur écrans aux prédictions de BMad.
ensuite : nouvelle lattice "Bmad" appliquée sur ThomX --> "Mac" --> recipe_recipe_TL_all_Mac_20251119_18_02_10.txt
Mac : car dispersion Bmad "matchée" à l'anneau en M ....
 BMad fichiers mis à jours sur /data/shared
Suite à faire :
- Mesurer la dispersion.
- comprendre pourquoi en Y on n'est pas très bon (QP7)
- revoir les mesures de twiss : les distributions ne sont pas très bonnes pour le quad scan
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| Attachment 1: TLSST1_noQuads_Simu.png
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| Attachment 2: TLSST1_NoQuads_beam.png
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| Attachment 3: TLSST1_quads_Simu.png
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| Attachment 4: TLSST1_With_Quads_beam.png
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| Attachment 5: TLSST1_quads_Q7_Simu.png
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| Attachment 6: TLSST3_Mac_Receipt_Simu.png
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| Attachment 7: TLSST3_Mac_Reciept_Beam.png
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1152
|
Tue Nov 18 11:11:33 2025 |
HG, JM, ND | Under Process | Shift summary | LI |
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Prise de données 18/11 | |
9h Intervention laser
Intervention pour realignement el/dg/sst.01
11h Fin interventions demarrage machine
12h Quad scans
14h Measures TL
16h Stop ThomX
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1151
|
Tue Nov 18 07:56:42 2025 |
KD | Under Process | Shift summary | Linac Commissionning |
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shift du 18 novembre 2025 | |
7h50: mise en chauffe en remote de la machine (laser, frigo/chiller, cyclage)
==> le modulateur ne répond pas aux commandes (il est peut être en local) ==> Ok le modulateur était bien en local (Maher est intervenu)
*** intervention laser (9h 11h) ***
* Pas de perte particulière sur la ligne observée, le faisceau ne semblait pas non plus avec une forme dégradée.
* nettoyage des optiques dans la salle laser, ajustement du téléscope de la casemate (pas d'effet notable mise à part une perte d'intensité sur la caméra sans perte de puissance côté canon)
** Mesure Laser PC **
- Sortie Laser: 250 uJ (en baisse)
- Injectée ligne transport: 235 uJ
- Sortie ligne transport: 188 uJ
- Sortie Iris (ouverture max): 175 uJ
- Injectée canon (iris max, 420 pas atténuateur): 105 uJ
- Sortie iris (1.3mm): 51 uJ
- injectée canon (iris 1.3 mm, 420 pas) : 43 uJ |
| Attachment 1: 2025-11-18_10_56_51_li_op_las_02_RAW.png
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Draft
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Thu Nov 13 08:00:59 2025 |
KD MJ VM HG | Fixed | Shift summary | LI | TL | LE | Ring | Opt | Linac Commissionning | Ring Commissioning |
|
shift du 13 novembre 2025 - spectres a differentes valeurs de bpmTL2_X | |
Apres que Kevin a regle tous les problemes synchro signal bpm etc etc etc
L'interface SST ne fonctionne pas - URGENT ==> probleme resolu
Libera 2 et 4 reboote une 2eme fois ...
Faisceau dans l'anneau
15h15 toujours impossible de locker la cavite FP, pour une raison inconnue ==> Shift reporte
Several manual BBA steps were performed in the Hor. plane for Ri-C1/QP01 to find the offset change in Ri-C1/BPM01.
16h46 Stop ThomX
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1149
|
Wed Nov 12 10:29:49 2025 |
Entered by Super Team from 134.158.76.9 on Wed Nov 12 10:29:34 2025 | Under Process | Shift summary | LI | TL | Ring |
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15h09 Cycling all magnets
15h12 HV is ON
15h15 The modulator was set to standby
15h34 HV is ON
Tests on Ring + Streak camera to measure the bunch length. Triggering was not perfect (many jumps, even with help from Daniele)
Laser charge is now lowered (max around 300 pC) , should be realign soon.
18:40 stop |
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1148
|
Mon Nov 10 16:15:53 2025 |
KD, M2 GI | Fixed | Shift summary | LI | TL | Linac Commissionning |
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shift du 10 novembre 2025 | |
8h: mise en chauffe en remote (modulateur, laser, frigo/chiller)
10h: Démarrage machine
*** Programme TP ***
- mesure charge/phase et Energie/phase du canon
- Mesure beam parameters sortie section + energy et energy spread
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1147
|
Fri Nov 7 18:45:54 2025 |
Entered by Super Team from 134.158.205.4 on Fri Nov 7 18:45:38 2025 | Under Process | Shift summary | Linac Commissionning |
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08h34 Warm-up ThomX: Modulator, Laser, Fridge
08h40 Chillers were started, cycling all magnets
09h40 HV is ON but cannot trig because the interlock on low SF6 pressure. Assistance asked.
10h40 Modulator set to standby, because nobody responded.
SF6 pressure was fixed.
14h00 Beam started. The laser iris was set to 2 mm because at 1.3 mm beam was with two cores at the linac exit.
Receipt used: all_20251106_13_58_04
RF gun phase 233 dg. Sect. phase 211 dg., Motor position of the sect. Att. about 1700 steps to get 50 MeV. Charges (BPMs): -110 pC, -110 pC, -113 pC, -113 pC. Do not use calc/li/hfi/att.01-mot.01 to adjust section RF power in dB, use li/hfi/att.01-mot.01 instead. Level of a signal from the section output should be about -0.125 V at 50 MeV.
14h16 Beam is in the ring, RF 100 kV. TL/BPM02 X=-1mm.
BBA for a vertical direction.
BPM V [1 1] V offset = -0.054 mm
BPM V [1 6] V offset = 0.165 mm
BPM V [1 7] V offset = 0.025 mm
BPM V [1 12] V offset = 0.366 mm
16h29 Stop ThomX
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| Attachment 1: Screenshot_from_2025-11-07_16-24-10.png
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| Attachment 2: Screenshot_from_2025-11-07_16-24-35.png
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| Attachment 3: Screenshot_from_2025-11-07_16-23-58.png
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Draft
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Thu Nov 6 08:30:52 2025 |
Entered by Super Team from 134.158.195.141 on Thu Nov 6 08:30:37 2025 | Under Process | Urgent | TL | LE |
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08h30 Warm-up ThomX: Modulator, Laser, Fridge
08h36 Chillers were started, cycling all magnets
09h33 HV is ON
09h34 HV set to 1215 V RF Gun phase is 188 dg.
11h09 Help needed! Something is wrong with the TL bends.
11h44 Something is wrong with the section attenuator. Reducing the attenuation results in a decrease in the section's output power.
12h15 OK, finally we got it. RF Gun phase 182 dg. Sect. phase 298 dg. Sect. Att. 0.59 dB, 50 MeV, Li/HFI/ATT.01-MOT.01 ==> 311 steps Sect. Output -0.123 V
Sect. Output -0.123 V Mot. pos. 1699 steps but Sect phase = 211 dg. Calc/Li/HFI/ATT.01-MOT.01 is not working properly.
12h31 Beam is in the ring W/O RF
12h35 RF 100 kV
BBA Hor.
BPM Ind. Offset
[1 1] ==>-0.129
[1 2] ==>0.017
[1 3] ==>-0.722
[1 4] ==>0.425
[1 5] ==>-0.022
[1 6] ==>-0.139
[1 7] ==>0.091
[1 8] ==>0.272
[1 9] ==>0.375
[1 10] ==>-0.022
[1 11] ==> -0.272
[1 12] ==> -0.400 |
| Attachment 1: SectOutput20251030.png
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| Attachment 2: SectOutput20251106.png
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