q pp h qecole-de-gif.in2p3.fr/cours/gif01/virdee_plots.pdfww, zz fusion q ho w,z w,z q q h o w, z...
TRANSCRIPT
![Page 1: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/1.jpg)
Fig.1
![Page 2: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/2.jpg)
HWW
Z0
p p
Z0
Fig.2
![Page 3: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/3.jpg)
Fig.3
![Page 4: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/4.jpg)
Fig.4
![Page 5: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/5.jpg)
Fig.5
![Page 6: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/6.jpg)
Training Quenches at 1.8K - first runs
6.006.256.506.757.007.257.507.758.008.258.508.759.009.259.509.75
10.00
Quench Number
Mag
netic
Fie
ld a
t Que
nch
B [T
esla
]
Ultimate Field = 9T Nominal Field = 8.34 Tesla
No Quench
Training Quench
Provoked Quench
HCMBB-A000102000001
HCMBB-A000101000002
HCMBB-A000101000001
HCMBB-A000103000001
Fig.6
![Page 7: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/7.jpg)
Fig.7
![Page 8: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/8.jpg)
solenoid
ATLAS
CMS
Fig.8
![Page 9: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/9.jpg)
Fig.9
![Page 10: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/10.jpg)
Fig.10
![Page 11: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/11.jpg)
1.2m
3.5m
Fig.11
![Page 12: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/12.jpg)
digitaloptical link
Optical transmitter
ADC
RAMTTCrx
TTCrx µPFront End Driver
T1
Front End Controller
I2C
Front End ModuleDetector
Control module
PLL
CLK
CCU
analogueoptical link
DCU
Tx/Rx
Tx/Rx
APV
APVMUX
256:1
FPGA
FPGA
programmable gain
50 ns CR-RC shaper
192-cell analoguepipeline
1 of the 128 channels
SFSF
Analogue unity gain inverter
S/H
APSP
128:1 MUX
Differential current O/P
APV25 functional schematic
Fig.12
![Page 13: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/13.jpg)
MDTMDT
TGC
RPC
CSC
Fig.13
![Page 14: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/14.jpg)
Fig.14
![Page 15: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/15.jpg)
Fig.15
![Page 16: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/16.jpg)
Fig.16
![Page 17: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/17.jpg)
CMS: Transverse energy flow in ∆ηx∆φ ~ 0.1x0.1 at L=1034 cm -2s-1
η=0.1 η=2.2
Fig.17
![Page 18: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/18.jpg)
Loss of efficiency at Hi L for H γγ
Rejection power against π0s in jets
o
area used to measure energy
area used for isolation
γ
∆R
∆R= sqrt(∆φ2 + ∆η2)
Fig.18
![Page 19: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/19.jpg)
CMSATLAS
Fig.19
![Page 20: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/20.jpg)
Muons
Pions
ATLASPattern
Recognition>9 precision hits
+ 2 pixel hits+ σd < 1mm
Fig.20
![Page 21: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/21.jpg)
Fig.21
![Page 22: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/22.jpg)
ETe=35 GeV CMS Barrel
Fig.22aFig.22b
![Page 23: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/23.jpg)
Conversions CMS BarrelHiggs γγεγ ~ 90%
¼ of conversions cannot be reconstructed
Unconverted γs Converted γs
5x5 5x9 anddynamic
Fig.23
![Page 24: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/24.jpg)
Classical ‘cone’ algorithm - jet built around a seed• parameters: ET
seed cut, cone opening radius ∆RATLAS
∆R=0.4pileup+el noise *
el noise o
W + jetsET
jet > 20 GeV
ATLAS: W jet-jet mass resolution
pTW(GeV) ∆R σLoL σHiL (GeV)
pT<50 0.4 9.5 13.8 100<pT<200 0.4 7.7 12.9200<pT<700 0.3 5.0 6.9
100<pTW<200 200<pT
W<700
with pileup
Fig.24
![Page 25: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/25.jpg)
A ττ mA=150 geV
Fig.25
![Page 26: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/26.jpg)
Cuts (ATLAS)ETγ1,ETγ2 > 40, 25 GeV with |η| < 2.5EH1/Eem
Eem23x3/ Eem2
7x7
Shower width in ηTrack Veto
ATLAS EM calorimeter4 mm η-strips in first compartment
3 longitudinal segments
Detailed MC
εγ ~ 80% all L
(γ−jet + jet-jet) < 40% γγFig.26bFig.26a
![Page 27: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/27.jpg)
Likelihood methodForm significance Si for i-th trk in jetForm ri=fb(Si)/fu(Si)Form Jet weight W = Slog ri
Fig.27bFig.27a
![Page 28: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/28.jpg)
ATLAS
High pT
Medium
Low
τ-jets QCD jets
Fig.28b Fig.28c
Fig.28a
![Page 29: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/29.jpg)
ETmiss
τ1 l + νs
τ2 h (+π0s)+ νs
Jets system
Mass resolution ~ 10%
Fig.29bFig.29a
![Page 30: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/30.jpg)
Tagging Jets
Fig.30
![Page 31: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/31.jpg)
ET( ) + max ET( ) > ETmin
φη
ET
Electromagnetic Hadron
Hit
72 φ x 54 η x 2 = 7776 towers
0.087 φ
0.0145 η
0.0145 η
E-H Tower
Trigger Tower = 5x5 EM towers
ET( ) / ET( ) < HoEmax Isolated
“e/γ”At least 1 ET( , , , ) < Eisomax
Fine-grain: ≥1( ) > R ETmin
Fig.31
![Page 32: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/32.jpg)
Pt = 3.5, 4.0, 4.5, 6.0 GeV
Fig.32
![Page 33: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/33.jpg)
Fig.33
![Page 34: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/34.jpg)
Fig.34
![Page 35: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/35.jpg)
- 30 Collisions/25ns ( 10 9 event/sec ) 107 channels (10 16 bit/sec)
Multilevel trigger and readout systems
Luminosity = 1034 cm-2 sec-1 25 ns
25ns40 MHz
105 Hz
103 Hz
102 Hz
Trigger Rate
Lvl-1
Lvl-2
Lvl-3
Front end pipelines
Readout buffers
Processor farms
Switching network
Detectors
µsec
ms
sec
25ns40 MHz
105 Hz
102 Hz
Trigger Rate
Lvl-1
HLT
Front end pipelines
Readout buffers
Processor farms
Switching network
Detectors
µsec
sec
ATLASCMS
Fig.35
![Page 36: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/36.jpg)
16 Million channels
100 kHzLEVEL-1 TRIGGER
1 Megabyte EVENT DATA
200 Gigabyte BUFFERS500 Readout memories
3 Gigacell buffers
500 Gigabit/s
Gigabit/s SERVICE LAN Petabyte ARCHIVE
Energy Tracks
Networks
1 Terabit/s(50000 DATA CHANNELS)
5 TeraIPS
EVENT BUILDER.A large switchingnetwork (512+512 ports) with a total throughput ofapproximately 500 Gbit/s forms the interconnectionbetween the sources (Readout Dual Port Memory)and the destinations (switch to Farm Interface). TheEvent Manager collects the status and request ofevent filters and distributes event building commands(read/clear) to RDPMs
EVENT FILTER. It consists of a set of highperformance commercial processors organized into manyfarms convenient for on-line and off-line applications.The farm architecture is such that a single CPUprocesses one event
40 MHzCOLLISION RATE
Charge Time Pattern
Detectors
Computing services
Fig.36
![Page 37: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/37.jpg)
Fig.37
![Page 38: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/38.jpg)
LEVEL-1 Trigger Hardwired processors (ASIC, FPGA) Pipelined massive parallel
HIGH LEVEL Triggers Farms of
processors
10-9 10-6 10-3 10-0 103
25ns 3µs hour yearms
Reconstruction&ANALYSIS TIER0/1/2
Centers
ON-line OFF-line
sec
Giga Tera Petabit
Fig.38
![Page 39: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/39.jpg)
Fig.39a
-5 -4 -3 -2 -1 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
t (25ns units)
puls
e sh
ape
-5 -4 -3 -2 -1 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
t (25ns units)
puls
e sh
ape
In+Out-of-time pulses
Fig.39b
![Page 40: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/40.jpg)
Fig.40a
Muon Momentum Resolution
Spatial resolution Š 100 µm/station
δpt/pt - 10% at pt=500 GeV at η=2 )
PbWO4 CRYSTAL ELECTROMAGNETIC
CALORIMETEREnergy reconstructed in 3 x 3 crystals
σ / E - 2.7% / ¦ E ⊕ 0.5% ⊕ 20%/E (E in GeV)
Fig.40b
m
![Page 41: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/41.jpg)
gg H
qq Hqq
gg,qq Hbb
gg,qq Htt
qq HZ
qq' HW
107
106
105
104
103
102
10-1
10-2
10-3
10-4
10
1
0 200 400 600 800 1000
MH (GeV)
σ (
pb)
σ(pp H+X)
s = 14 TeV
mt = 175 GeV
CTEQ4M
NLO QCD
M. Spira et al.
5–
1
102g
g g fusion
g tHot
t
g
g
Ho
t
t
t
t
t t fusion
q
q
WW, ZZ fusion q
Ho
W,Z
W,Z
q
q Ho
W, Z bremsstrahlungq
W,Z W,Z
eve
nts
fo
r 1
0 p
b
Fig.41
![Page 42: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/42.jpg)
Fig.42
![Page 43: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/43.jpg)
Fig.43a
Detailed MC
Fig.43b
![Page 44: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/44.jpg)
CMS CMS
Fig.44a Fig.44b
![Page 45: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/45.jpg)
γγ + l + X
γγ + ≥ 2 jets pT > 40 GeV
Fig.45
![Page 46: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/46.jpg)
ATLAS
Fig.46
![Page 47: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/47.jpg)
ATLAS100 fb-1
30(70) fb-1 at lo(hi)L
mH = 120 GeV
Fig.47
![Page 48: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/48.jpg)
Fig.48
![Page 49: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/49.jpg)
ATLAS 30 fb-1
mH =150 GeV
Fig.49
![Page 50: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/50.jpg)
Normalised impact parameter
H → 4 µ
bZbtt
4 8 12
Fig.50
![Page 51: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/51.jpg)
Fig.51
![Page 52: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/52.jpg)
Fig.52
![Page 53: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/53.jpg)
20 fb-1 100 fb-1
Fig.53
![Page 54: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/54.jpg)
ATLAS : 100 fb-1
Fig.54
![Page 55: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/55.jpg)
CMS
Fig.55
![Page 56: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/56.jpg)
mH = 800 GeV, 30 fb-1
Etag>200 GeV
Etag>400 GeV
ATLASmH = 1TeV, 30fb-1
Fig.56
![Page 57: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/57.jpg)
Fig.57
![Page 58: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/58.jpg)
LEP2
5σ
Fig.58
![Page 59: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/59.jpg)
Fig.59
![Page 60: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/60.jpg)
Higgs production via WW fusion
Zeppenfeld et. al. 100 fb-1
30fb-1
Fig.60
![Page 61: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/61.jpg)
102
10
20
30
103MH (GeV/c2)
H → γγttH (H → bb)
H → ZZ(*) → 41
H → WW → lνlν
Err
or
on
σx
BR
(%
)
Open symbols : ∆+ / + = 10%Closed symbols : ∆+ / + = 5%
Fig.61
![Page 62: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/62.jpg)
Mass spectra for MSUSY>1TeV
Two-loop / RGE-improved radiative corrections included
No stop mixing
MSUSY= 1 TeV
H, tan β= 2
H, tan β= 20
h, tan β= 2
h, tan β= 20
H±, tan β= 2
H±, tan β= 20
300
250
200
150
100
50
0 25 50 75 100 125 150 175 200 225 250
MA (GeV/c2)
MH
IGG
S (
Ge
V/c
2)
MA (GeV/c2)
Maximal stop mixing
MSUSY= 1 GeV H, tan β= 2
H, tan β= 20
h, tan β= 2
h, tan β= 20H±, tan β= 2
H±, tan β= 20
300
250
200
150
100
50
0 25 50 75 100 125 150 175 200 225 250
Fig.62
![Page 63: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/63.jpg)
σ (
pb
)
gg hgg H
hW
HW
hZ
HZ
hqq
Hqqhbbhtt
Htt
Hbb
H
σ (pp h / H+X) [pb]s = 14 TeV
Mt = 175 GeVCTEQ4
tgβ= 1.5
M. Spira et al.
50 100 200 500 103
σ (
pb
)
Mh/H (GeV/c2)
h
g
g t,t,b,b
h,H
~ ~
h,HW,Z
W,z
q
q
b
g
g
h,H
gg h
gg H
hZ
HZ
hW
HW
hqq
Hqq
Htt
htt
hbb
Hbb
h H
σ (pp h / H+X) [pb]s = 14 TeV
Mt = 175 GeVCTEQ4
tgβ = 30
10–2
10–3
10–4
10–1
104
103
102
10
1
50 100 200 500 103
g b
bb
bg
h,H
b
Mh/H (GeV/c2)
10–2
10–3
10–4
10–1
104
103
102
10
1
Fig.63
![Page 64: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/64.jpg)
No mixing, MS=1TeV
Fig.64
![Page 65: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/65.jpg)
Fig.65
![Page 66: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/66.jpg)
ATLASσm~12%
CMSσm~14%
mH=500 GeVtanβ=25
Fig.66aFig.66b
![Page 67: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/67.jpg)
CMS 30 fb-1
Fig.67a
Fig.67b
![Page 68: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/68.jpg)
Fig.68a
1 b-tag
Fig.68b
![Page 69: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/69.jpg)
Fig.69
![Page 70: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/70.jpg)
Fig.70
![Page 71: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/71.jpg)
Fig.71
![Page 72: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/72.jpg)
a
b
Fig.72
![Page 73: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/73.jpg)
a
b cFig.73
![Page 74: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/74.jpg)
Fig.74
![Page 75: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/75.jpg)
Adding bb on the τ modes can “close” the plane
Wh
bb
maximal stopmixing with
30 fb-1 maximal stop mixingwith 300 fb-1
Area coveredby H0→ χ 02χ0
2,→4ℓeptons
100 fb-1
No stop mixing
(e/µ)ν
Fig.75
![Page 76: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/76.jpg)
Fig.76
![Page 77: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/77.jpg)
Minimal mixing(mh < 115.5 GeV)NB: log scale
Caveat: coverage depends strongly on exact upper bound on mh
Fig.77
![Page 78: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/78.jpg)
Maximal mixing(mh < 130 GeV)NB: linear scale
Caveat: possible suppression of e.g. bbH coupling could affect significantlyH observation at LHC
Fig.78
![Page 79: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/79.jpg)
In this region only h observable(h ≈ SM Higgs)→ disentangle SM /MSSM ?
4 Higgs observable3 Higgs observable2 Higgs observable1 Higgs observable
MSSM Higgs bosons
h,A,H,H±
h,A,H,H±
Assuming decaysto SM particles only
h,H±
h
h,H±
h,A,H
H,H±
h,,H,H±
h,H
5σ contours
Fig.79
![Page 80: q pp H qecole-de-gif.in2p3.fr/Cours/GIF01/virdee_plots.pdfWW, ZZ fusion q Ho W,Z W,Z q q H o W, Z bremsstrahlung q W,Z W,Z events for 10 pb Fig.41 Fig.42 Fig.43a Detailed MC Fig.43b](https://reader035.vdocuments.site/reader035/viewer/2022070204/60f67b2e0828de631806d6a7/html5/thumbnails/80.jpg)
102
10
1
10—1
100 200 300 400 500 600
MHiggs [GeV]
H → γγH → ZZ
H → WW
LHC 14 TeV (SM NLO Cross Sections)
Dis
cove
ry L
um
ino
sity
[fb
—1
]
D_
D_
12
85
c
5σ Higgs Signals (statistical errors only)
~ 1 month@1033
~ 1 year@1033
~ 1 year@1034
CMS
lept. isol. , jet veto, Etmiss
lept. acceptance, lept. isol.
”L dt = 1, 10, 100, 300 fb-1
A0= 0, tanβ= 35, µ > 0
ET (300 fb-1)miss
ET (100 fb-1)miss
ET (10 fb-1)miss
ET (1 fb-1)miss
g(1000)~
q(1500)
~
g(1500)~
g(2000)~
q(2500)
~
g(2500)~
q(2000)
~
g(3000)~
q(1000)~
q(500)
~g(500)~
Ωh
2 = 0.4
Ωh
2 = 1
Ωh 2 = 0.15
h(110)
h(123)
1400
1200
1000
800
600
400
200
50000
1000 1500 2000
m0 (GeV)
m1/
2(G
eV)
CMS q, g mass reach in E + jets inclusive channel for various integrated luminosities
~ ~ miss
T
EX
TH
DD
_210
1
CMS
~ one year@1033
~ one year@1034
~ one month@1033
Fermilab reach: < 500 GeV
~ one week@1033
cosmologically plausible region
Fig.80