CNRAD news - Summary of the last TS and new PS EAIRRAD facility
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Transcript of CNRAD news - Summary of the last TS and new PS EAIRRAD facility
J. MEKKI (1/13)06/07/12 – RadWG meeting
CNRAD news - Summary of the last TS and new PS EAIRRAD facility
• Overall beam schedule for 2012
• New installations and results
• RadMONs (2nd and 3rd Slots)
• Equipments to be tested in 2012
• New PS East Area IRRAD
J. MEKKI (2/13)06/07/12 – RadWG meeting
Overall Beam schedule for 2012
Slot # Length [weeks] Approx. slot start date Approx. slot end date
1 5.5 16 March 23 April2 8.5 27 April 25 June3 7.5 30 June 20 August4 8.5 25 August 22 Oct5 5.5 27 Oct 3 Dec
CNRAD experiment test area will run from March to December 2012
2013 → LS1
Most probably, CNGS will not restart after 2013
New schedule for LHC
New schedule for CNGS
The next technical stop will be on the week 38 (17/09 to 23/09)
A new schedule for the overall year will be available soon
J. MEKKI (3/13)06/07/12 – RadWG meeting
New installations and results
J. MEKKI (4/13)06/07/12 – RadWG meeting
New installations and results
J. MEKKI (5/13)06/07/12 – RadWG meeting
New installations and results
J. MEKKI (6/13)06/07/12 – RadWG meeting
New installations and results
J. MEKKI (7/13)06/07/12 – RadWG meeting
New installations and results
J. MEKKI (8/13)06/07/12 – RadWG meeting
RM10 box (5V)RM10 deportedRadFETs:100 nm 400 nm
RadMONs – 2nd Slot
RM8 box (5V)RM8 deportedRadFETs:100 nm 1000 nm
Difference between both RadFETs ≈ 40 %
Previous Slot:Difference between 100 nm and 1000 nm ≈ 28 %
Difference between both RadFETs ≈ 34.5 %
Previous Slot:Difference between 100 nm and 400 nm ≈ 35 %
At this location, both 1000 nm and 400 nm responses are very similar
At this location, a higher difference is observed with the 400 nmResults should be taken with
caution as the Co-60 calibration is missing for the 400 nm W8
J. MEKKI (9/13)06/07/12 – RadWG meeting
RM10 box (5V)RM10 deportedRadFETs:100 nm 400 nm
RadMONs – 2nd Slot
RM8 box (5V)RM8 deportedRadFETs:100 nm 1000 nm
At this location, both 1000 nm and 400 nm responses are very similar
At this location, a higher difference with the 400 nm
At position 455, the deposited dose is dominated by gamma and e- (Green)
At position 463, protons are the dominant particles which deposit dose (Grey)
The Co-60 for the 400 nm W8 is needed to understand
J. MEKKI (10/13)06/07/12 – RadWG meeting
RM10 deported(Target Area)RadFETs:100 nm 400 nm
RadMONs – 3rd Slot
RM8 deportedRadFETs:100 nm 400 nm
RM7 box (5V)RM7 deportedRadFETs:400 nm 1000 nm
RM8 box (3V)
RM10 box (3V)
J. MEKKI (11/13)06/07/12 – RadWG meeting
Equipments to be tested in 2012
Maybe from Slot4 (17th September 2012)
J. MEKKI (12/13)06/07/12 – RadWG meeting
New PS East Area IRRAD
• Will be built in 2013
J. MEKKI (13/13)06/07/12 – RadWG meeting
New PS East Area IRRAD
• Preliminary list
• Number of cables per station (probably 3/4 stations will be available)
NE48 4
Profibus 4
Fiber Optics 12
Ethernet connections 12
CB50 (remote reset) 10
CB50 (For SETs) 20
WorldFIP 4
MCA36 (Shielded Twisted Pairs) 4
Single phase (220 V) 10
3-Phase (16A – 400V) 4
Tyco Blue Ribbon (µcoax) 4
J. MEKKI (14/13)06/07/12 – RadWG meeting
Back Up
J. MEKKI (15/13)06/07/12 – RadWG meeting
Results of the Station2 position
Dose/POT = 3.5×10-20 ± 3.6 ×10-21
From calibration table:Dose/POT= 3.2×10-20
J. MEKKI (16/13)06/07/12 – RadWG meeting
Main results for position 455 Slot1&2
Comparison of the K factor for Slot 1 and 2:
Slot1
Slot2
Dose/POT = 2×10-18 ± 6.7 ×10-20 Dose/POT = 1.2×10-18 ± 1 ×10-20
Dose/POT = 1.8×10-18 ± 3.7 ×10-19
Dose/POT = 1.3×10-18 ± 4 ×10-20
Diff(100nm/1000nm) ≈ 28 %
Diff(100nm/400nm) ≈ 40 %
J. MEKKI (17/13)06/07/12 – RadWG meeting
Main results for position 463 Slot1&2
Comparison of the K factor for Slot 1 and 2:
Slot1
Slot2
Dose/POT = 4.9×10-18 ± 7.2 ×10-19Dose/POT = 3.2×10-18 ± 1.7 ×10-20
Dose/POT = 4.7×10-18 ± 4.1 ×10-19
Dose/POT = 3.04×10-18 ± 2.1 ×10-19
Diff(100nm/400nm) ≈ 35.3 %
Diff(100nm/1000nm) ≈ 34.6 %
J. MEKKI (18/13)06/07/12 – RadWG meeting
RM10 box (5V)RM10 deportedRadFETs:100 nm 400 nm
RadMONs – 2nd SlotRM8 box (5V)RM8 deportedRadFETs:100 nm 1000 nm
At this location, both 1000 nm and 400 nm responses are very similar At this location, a higher
difference with the 400 nm
At position 455, the deposited dose is dominated by gamma and e- (Black)
At position 463, protons are the dominant particles which deposit dose (green)
Lower energy protons contribute more to the deposited energy at position 455. → ≈ 60 % of the dose deposited by protons is within 10 MeV < p+ < 25 MeV
While at position 463→ ≈ 60 % of the dose deposited by protons is within 10 MeV < p+ < 40 MeV
→ ≈ 50 % p+ < 20 MeV
→ ≈ 50 %: 25 MeV < p+ < 60 MeV
For both locations dose :→ p+ < 125 MeV
J. MEKKI (19/13)06/07/12 – RadWG meeting
RM10 box (5V)RM10 deportedRadFETs:100 nm 400 nm
RadMONs – 2nd SlotRM8 box (5V)RM8 deportedRadFETs:100 nm 1000 nm
At this location, both 1000 nm and 400 nm responses are very similar At this location, a higher
difference with the 400 nm
At position 455, the deposited dose is dominated by gamma and e- (Black)
At position 463, protons are the dominant particles which deposit dose (green)
Lower energy protons contribute more to the deposited energy at position 455. → ≈ 60 % of the dose deposited by photons is belowE < 100 keV
While at position 463→ ≈ 60 % of the dose deposited by photons is belowE < 800 keV