SLHC Tracker Layout The UTOPIAn Perspective Charles Young (SLAC)
SLHC Tracker Layout
Feb 05, 2016
SLHC Tracker Layout. The UTOPIAn Perspective. Charles Young (SLAC). SLHC Parameters. Peak luminosity ~ 10 35 cm -2 sec -1 Average luminosity 4 x 10 34 cm -2 sec -1 Instantaneous rate important for detector layout and design purposes: Number of events per bunch crossing Bunch spacing - PowerPoint PPT Presentation
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
SLHC Tracker LayoutThe UTOPIAn Perspective
Charles Young (SLAC)
UTOPIA Page 2
SLHC Parameters
• Peak luminosity ~ 1035 cm-2 sec-1
• Average luminosity 4 x 1034 cm-2 sec-1
• Instantaneous rate important for detector layout and design purposes:– Number of events per bunch crossing– Bunch spacing
• 25 or 50 nsec
– Detector integration time• One BC (at 25 nsec separation)
UTOPIA Page 3
Four SLHC Scenarios
• Frank Zimmermann: four scenarios during February 2009 ATLAS Upgrade Week. – http://indico.cern.ch/conferenceDisplay.py?
confId=45460#2009-02-27
• Early Separation (ES)
• Full Crab Crossing (FCC)
• Large Piwinski Angle (LPA)
• Low Emittance (LE) Large Emittance (LE)
UTOPIA Page 4
Luminosity Evolution
averageluminosity
From
FZ
’s t
alk
UTOPIA Page 5
# Events per Crossing
From
FZ
’s t
alk
Max = 400
UTOPIA Page 6
With Luminosity Leveling
Min = 75
UTOPIA Page 7
What is UTOPIA?
• A very bad acronym for Upgrade Taskforce On Possible Innerdetector Layout
• Members– Leonardo Rossi (Genova - chair)– Andrea Catinaccio (CERN)– Allan Clark (Geneva)– Nigel Hessey (NIKHEF)– Nikos Konstantinidis (UC London)– Andi Salzburger (CERN- DESY)– Teddy Todorov (Annecy)– Jeff Tseng (Oxford)– Norbert Wermes (Bonn)– Charlie Young (SLAC)
UTOPIA Page 8
Mandate
• The mandate is to define a baseline layout for the central tracker in view of the Letter of Intent ATLAS will write for the SLHC.
• As the physics focus of SLHC is not defined yet, we require that the new layout has at 1035cm-2s-1 the same performance as the present detector is expected to have at 1034cm-2s-1.
• We should also take into proper consideration the need to build & commission such a detector in a relatively short time (~ 5 years).
• The new layout should be optimized for the inner tracker, including pixel, short strip and long strip, and barrel plus endcap simultaneously.
• The Task Force is expected to reach a result by October and then hand over the information to the LoI editors.
UTOPIA Page 9
UTOPIA Meetings
• Meeting every 3 weeks– Six meetings so far– http://indico.cern.ch/categoryDisplay.py?
categId=1389
• Some agenda items– Encourage comparison/validation of tools– Suggest layout with material estimates– Power estimate cooling– Other considerations and wild ideas
UTOPIA Page 10
Current “A Basic Layout”
• See presentation by Nigel Hessey (http://indico.cern.ch/conferenceDisplay.py?confId=61990)
• 4 pixel layers, 3 short strip layers and 2 long strip layers
• “Fixed length” barrel
UTOPIA Page 11
UTOPIA Page 12
UTOPIA Page 13
Power Estimates
• See presentations by Norbert Wermes (http://indico.cern.ch/conferenceDisplay.py?confId=59516) and Alan Clark (http://indico.cern.ch/conferenceDisplay.py?confId=61990)
• Consider contributions from:– Front end power dissipation (digital + analog)– Losses in local cabling– Leakage current x depletion voltage (depends on
radiation dose)
UTOPIA Page 14
UTOPIA Page 15
UTOPIA Page 16
UTOPIA Page 17
UTOPIA Page 18
Primary Vertex Density
Nominal LHC
ES FCC LE LPA
Peak Luminosity
1034 cm-2 sec-
1
1.0 15.5 15.5 16.3 10.7
(luminous) cm 4.5 3.7 3.7 1.6 5.3
Nevent 19 75 75 75 150
/ Nevent m 2368 493 493 213 353
Density ratio =1.0 4.8 4.8 11 6.7
Nevent 19 294 294 309 403
/ Nevent m 2368 126 126 52 132
Density ratio =1.0 19 19 46 18
~20 times higher
Num
bers
fro
m FZ
’s
talk
SLHC/Upgrade ~ 100 m
lum
inosi
ty
levelin
g
Wit
hout
levelin
g
LHC/ATLAS
UTOPIA Page 19
z Resolution
• Modified longitudinal impact parameter, zo x sin(), resolution as a function of for pions.
ATLAS detector paper Figure 10.10
100 m
UTOPIA Page 20
Desired Resolution
• LHC/ATLAS: FOM ~ 2368 / 100 ~ 24.
• SLHC/Upgrade: FOM ~ 100 / z-res.
• Similar FOM implies z-res ~ 5 m. – Probably impossible.
• FOM ~ 3 or z-res ~ 30 m can be useful and not obviously impossible.
Careful studies needed to confirm (or refute) this hand waving!
UTOPIA Page 21
Level-1 Track Trigger
• See presentation by Nikos Konstantinidis (http://indico.cern.ch/conferenceDisplay.py?confId=59516)
• Doublet(s) – direct impact on layout
• Regional readout – no direct impact
UTOPIA Page 22
Computing Impact
• Pattern recognition and reconstruction time driven by combinatorics.
• Can a layout make a (large) impact?
• Possibilities:– Layer doublets– More pixel layers
• What are the costs (in $ as well as physics performance)?
UTOPIA Page 23
Summary from UTOPIA
• Come up with a basic layout by October
• Targeted for Letter of Intent
• Upgrade Simulation group doing the hard work!
Related Documents
