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CMS physics technical design report: Volume II: physics performance
Eija Tuominen
, CMS Collaboration
Not published at VTT
Helsinki Institute of Physics (HIP)
Research output
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Contribution to journal
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Article
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Scientific
755
Citations (Scopus)
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Dive into the research topics of 'CMS physics technical design report: Volume II: physics performance'. Together they form a unique fingerprint.
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Keyphrases
B Meson
25%
B-Physics
25%
Benchmarking Method
75%
Beyond Standard Model
25%
Chapter 26
25%
CMS Experiment
25%
Collision Energy
25%
Decay Channels
25%
Diffraction
25%
Electroweak
25%
Electroweak Physics
25%
Full Simulation
25%
Heavy-ion Collisions
50%
Higgs Boson
25%
Higgs Decays
25%
Higgs Discovery
25%
Higgs Particle
50%
Higgs Properties
25%
Higgs Search
25%
Integrated Luminosity
25%
Large Hadron Collider
100%
Little Higgs Models
25%
Luminosity
25%
Misalignment
25%
Miscalibration
25%
Model Particle
25%
Muon
25%
New Physics
50%
New Vectors
25%
Parameter Space
25%
Particle Physics
25%
Physicists
25%
Physics Performance
100%
Physics-based
25%
Plethora
25%
Pp Collisions
25%
Quarkonium
25%
Searches for New Physics
25%
Supersymmetric
50%
Supersymmetry
25%
Technical Design
100%
Technicolor
25%
Theories beyond the Standard Model
25%
Top Quark
25%
Vector Bosons
25%
Wand
25%
INIS
b mesons
7%
benchmarks
28%
bosons
7%
cern lhc
28%
cms experiment
7%
collisions
7%
coverings
7%
data
14%
decay
35%
design reports
100%
diffraction
7%
dimensions
7%
electrons
7%
energy
7%
heavy ion reactions
14%
higgs bosons
35%
higgs model
7%
jets
7%
luminosity
14%
models (particle)
7%
muons
7%
operation
7%
particles
21%
performance
100%
photons
7%
physics
100%
precision
7%
production
14%
proton-proton interactions
7%
qcd
7%
quarkonium
7%
simulation
14%
space
7%
standard model
42%
start-up
7%
supersymmetric particles
7%
supersymmetry
21%
symmetry
7%
tev range
21%
tools
7%
top quarks
7%
vectors
7%
volume
100%
Physics
Higgs Boson
25%
Ionic Collision
16%
Large Hadron Collider
33%
Meson
8%
Muon
8%
Particle Physics
8%
Physics
100%
Physics beyond the Standard Model
8%
Quantum Chromodynamics
8%
Standard Model
41%
Supersymmetry
8%