Post on 27-May-2020
transcript
Cherenkov Detector for Beam Quality Measurement
A. E. Dabrowski1, R.Loos1, S. S. Orfanelli1,2, J.Mans3, R. Rusack3, K. S?@er3, D. P. S?ckland4, F. Fabbri5, A. Montanari5, N.Tosi5
1. CERN, 2. Na?onal Technical University of Athens, 3. University of Minnesota, 4.Princeton University, 5. INFN Bologna
Beam Halo Monitor in CMS: novel, fast & direc8onal
• Beam Halo Monitor (BHM) is a new monitor to measure online bunch-by-bunch beam background in the CMS experiment at LHC.
• BHM will provide feedback to the LHC about the beam quality. • Since Cherenkov radiation is emitted in a forward cone around the charged
particle’s trajectory, BHM can distinguish the low rate of machine induced background from collision products.
backward forward
Installa8on & first beams results
Time [UTC+2:00]12:57:00
12:59:3013:02:00
13:04:3013:07:00
13:09:3013:12:00
13:14:3013:17:00
13:19:3013:22:00
13:24:3013:27:00
13:29:3013:32:00
13:34:3013:37:00
13:39:3013:42:00
13:44:30
Aver
age
Rate
per
cha
nnel
[Hz]
0
2
4
6
8
10
12
14
(Fill 3679, 5 May 2015)
Verti
cal C
ollim
ator
Gap
[mm
]
0
5
10
15
20
25
30+Z BHM rate
-Z BHM ratebeam 1 collimator
beam 2 collimator
(Fill 3679, Circulating Beams, 5 May 2015)!
Aver
age
Rat
e pe
r cha
nnel
[Hz]
Verti
cal C
ollim
ator
gap
[mm
]
The increase in BHM rate occurs, as expected, when the collimator gap is reduced.
The BHM units in blue as installed parallel to the beam pipe around the CMS rota=ng shielding at radius ~180 cm from beam pipe, 20.6 m from IP. Twenty detectors were installed per end.
The BHM units in blue as installed parallel to the beam pipe around the CMS rota=ng shielding at radius ~180 cm from beam pipe, 20.6 m from IP.