What is the Universe Made Of? - University of Toronto
Transcript of What is the Universe Made Of? - University of Toronto
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What is the Universe Made Of?
by Bob Orr
Wanted to talk about the ATLAS experimentat a new large particle accelerator.
WHY?
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Plan of Talk
⢠What we think visible matter is made of.
⢠The Standard Model
⢠Quantum forces
⢠Gauge Theories & Unification of Forces
⢠Cosmological Evidence for invisible matter
⢠Supersymmetry
⢠Large Hadron Collider
⢠ATLAS
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Is the Universe Made of These?
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Quantum Forces
⢠In Quantum Field Theory, particles interact via:.
Exchange of virtual particles
Electrons interact by exchanging:
Virtual Photons
Quarks interact by exchanging:
Virtual Gluons
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Real & Virtual Particles
⢠Interactions of Real particles, conserve
Energy and Momentum.
⢠Interactions of Virtual particles, need not conserve these, for short times and distances.
⢠Hiesenbergâs Uncertainty Principle
â ââ â
E tp x
ââ
Energy & time
Momentum & position
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Real & Virtual Particles
⢠Interactions of Real particles, conserve
Energy and Momentum.
⢠Interactions of Virtual particles, need not conserve these, for short times and distances.
⢠Hiesenbergâs Uncertainty Principle
â ââ â
E tp x
ââ
Energy & time
Momentum & position
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Weak Interaction
⢠A force very like electromagnetism; but
acts on Weak Charge
Îł W ZÂą 0
⢠In Fact, electromagnetism and weak forceare aspects of unified electroweak force
⢠Electric charge and weak charge are
related
⢠Three âforce carriersâ Îł W ZÂą 0
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Electroweak Force
⢠Photon is massless
⢠are very massive
⢠Almost 100 times proton mass
Îł
W ZÂą 0
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3 Generations
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3 Generations
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Higgs Boson
⢠Electromagnetism on its own can be made to give finite results for all calculations.
⢠Unified Electroweak theory gives infiniteresults for process like:
⢠Become finite if include new particle
Higgs boson
⢠Higgs makes massive, and actually generates masses of fundamental particles. It is a quantum field permeating the universe.
W ZÂą 0
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How Does Higgs Generate Mass?
⢠In vacuum, a photon:
has velocity c and has zero mass
⢠In glass a photon
has velocity < c , same as an effective mass
⢠This is due to photon interacting with
electromagnetic field in condensed matter
⢠By analogy can understand masses of particles
generated by Higgs Field in vacuum
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Grand Unification.
⢠At a high enough energy
electromagnetismweak forcestrong (colour) force
become aspects of Grand Unified Force
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Understand History of Universe?
⢠What we think (thought?) visible matter is made of.
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Hubbleâs Law & Big Bang.
⢠Big Bang model came from observation that
Universe is expanding
⢠For distant galaxies
velocity = x distance
is Hubble Parameter
⢠Whether Universe continues to expand, or starts to contract depends on density of matter and energy in Universe.
H0H0
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Fate of Universe
⢠If , the density of matter and energy is greater that a critical density the universe will start to contract.
⢠If is less than the critical density, the universe will continue to expand.
⢠Usually measure the density in units of
⢠spherical space-time: contraction
⢠flat space-time: expansion
⢠hyperbolic space-time: expansion
Ď0Ďc
Ď0
Ďc
Ί00 0
02
83
= =ĎĎ
Ď Ď
c
GH
Ί0 1>
Ί0 1=
Ί0 1<
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Measuring Ί0⢠Amazingly enough can measure
total matter/energy density in universe
⢠Measure temperature fluctuations in remnant of fireball from Big Bang.
Ί0 1=
Map of sky temp~ 3 Kelvin
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Measuring Ί0⢠Amazingly enough can measure
total matter/energy density in universe
⢠Measure temperature fluctuations in remnant of fireball from Big Bang.
Ί0 1=
Map of sky temp~ 3 Kelvin
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Measuring Ί0⢠Amazingly enough can measure
total matter/energy density in universe
⢠Measure temperature fluctuations in remnant of fireball from Big Bang.
Ί0 1=
Map of sky temp
~ 3 Kelvin
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Density of Standard Model Matter
⢠Referred to as Baryonic Matter
⢠Density is
⢠If Universe is made of quarks & leptons
⢠measured from abundance of elementsproduced in nucleosynthesis of Big Bang.
Deuterium, Helium, Lithium
⢠Most of Universe is not Standard Model matter. Some kind of Dark Matter
ΊB
Ί ΊB = =0 1
ΊB
ΊB = 0 05.Ί ΊB â 0
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Density of All Matter ΊM
⢠Can measure density of all matter, whateverits nature, , by looking at gravitational motion:
rotation curves of galaxiesmotion of galactic clusters
⢠There is indeed Dark Matter
⢠So even with this Dark Matter, cannot account for
⢠Universe must be 60% Dark Energy
ΊM
ΊM = ¹0 01.4 .
Ί0 1=
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Dark Energy ΊÎ
⢠If the expansion of the Universe is being slowed down by gravitational attraction; expect that in remote past galaxies were moving apart more rapidly than now.
⢠Observations of distant supernovae show that in the past galaxies were moving apart more slowly
⢠Expansion is accelerating
⢠Driven by some quantum field permeating the Universe.
ΊΠ= ¹0 85 0 2. .
( .4 . ) ( . . ) . .0 01 0 85 0 2 125 0 22Âą + Âą = Âą
Ί ΊÎM + = 1
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Calan/Tololo(Hamuy et al, A.J. 1996)
SupernovaCosmologyProject
effe
ctiv
e m
B
(0.5,0.5) (0, 0)( 1, 0 ) (1, 0)(1.5,â0.5) (2, 0)
(ΊÎ,ΊÎ) = ( 0, 1 )
Flat
Î =
0
redshift z
14
16
18
20
22
24
26
0.02 0.05 0.1 0.2 0.5 1.00.02 0.05 0.1 0.2 0.5 1.0
Supernova Cosmology ProjectPerlmutter et al. (1998)
astro-ph/9812133
In flat universe: ΊM = 0.28 [¹ 0.085 statistical] [¹ 0.05 systematic]
Prob. of fit to Î = 0 universe: 1%
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ΊΠ1 2 0 1 2 3
Ί
Î
-1
0
1
2
3
2
3
Supernova Cosmology Project
Perlmutter et al. (1998)
Best fit age of universe: to = 14.5 Âą 1 (0.63/h) Gyr
Best fit in flat universe: to = 14.9 Âą 1 (0.63/h) Gyr
19 Gyr14.3 Gyr
accelerating
decelerating
11.9 Gyr
9.5 Gyr
7.6 Gyr
H0t0 63 km s-1 Mpc-1
=
wwwâsupernova.LBL.gov
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Need for Supersymmetry
⢠In Grand Unified Theories cannot Unify forces, unless postulate unseen form of matter
⢠Higgs mass runs away to Plank Scale⢠Three forces never have same strength
⢠Unless all particles have supersymmetric sparticle partners (of higher mass)
+Sleptons BosinosSquarksSpin 1 Spin1/2
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SUSY + Dark Matter
⢠Supersymmetric Particles are unstable
⢠Eventually decay chain ends in Normal matter + lightest SUSY particle
⢠Lightest SUSYparticle cannot interact withnormal matter
⢠Lightest SUSY particle good candidate for
Dark Matter(Caveat - Recent evidence indicates that
Dark Matter is Self-Interacting)
⢠Hope to produce
(SUSY - antiSUSY ) pairs and Higgsat
Large Hadron Collider
Susy Normal Susyâ +
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How to Make Matter / AntiMatter?
Colliding high energy beams
Energy of beams transformed into mass of new particles
LHC will be proton - proton collider
For SUSY observation must contain ALLvisible energy, in order to infer invisible SUSY
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Superconducting Magnet
8 Tesla
In order to accelerate protons to high energy,must bend them in circular accelerator
7 TeV momentum needs intense magnetic field
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LHC Magnet
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LHC Tunnel
This is an arc of the circular tunnelCircumference 26.7 Km
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CERN Seen from the Air
⢠Tunnels of CERN accelerator complex superimposed on a map of Geneva.
⢠Accelerator is 50 m underground
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CERN Seen from the Air
⢠Tunnels of CERN accelerator complex superimposed on a map of Geneva.
⢠Accelerator is 50 m underground
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Generic Experiment
Layers of detector systems around collision point
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Particle Detection
⢠Different particles detected by different techniques.
⢠Calorimeter detects ionisation from a shower of secondaries produced by primary particle.
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Generic Detector
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ATLAS
⢠Our Detector
Canada is building
Endcap Calorimeters (TRIUMFAlberta, UVic)
Forward Calorimeters (Toronto Carleton)
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Forward Calorimeter
FCAL1 - Cu matrix + rods2.6Îť
FCAL2/3 -W matrix, W rodsCu skeleton3.5Îť/3.4Îť
Side view of FCAL
Cryostat
⢠FCAL is mainly tungsten, uses liquid argonas detecting medium for ionisation from shower
⢠Close to colliding beams - intense radiation
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ORR PIN
Spacer x 5
Figure An exploded viewsho wingho wthe calorimeteris madeup of tubular electrodesembedded in a matrixof smallsin tered tungsten slugs
TheF CALsignal is generated b y ionization in the Liquid Argon lled gap bet weenthe rods and the tubes The signals are read out via pins tted in to holes at one end ofthe rods Thesignals from tubes are summedon k apton boards at the end of theFCALF CALmodule
b Endplates
Theendplates are conceptually simpleconsisting of copper plates appro ximatelythick with holes for the tubes In practice achieving the required tolerances in plateatness and the details of the internal groove has proved to be a challenge Ofthe companiesthat w ere solicited for bids only the STCat Carletonsubmitteda quotationOneof the di cultieswiththe job is the tendency of copper to distort during mac hiningdue to residual stresses in the materialF or this reason we have chosen fully annealedcopper and are monitoringthe atness of the plates during the mac hining operations
b Tubes Rods and Spacers
Thecopper tubes are usually specied b y external diameterand w all thickness Forthe FCALthe k ey dimensionis the in ternal diameterwhic h formsone boundary of theionization gap Experience with the maquettehas sho wnthat industry can produce tubesthat meetour specications
Hadronic Forward Calorimeter Principle
W (97%), Ni (2.1%), Fe (0.9%)
Tungsten rods in copper tubes in a matrix built of tungsten slugs
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FCAL2 Module 0
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FCAL2 Module 0
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FCAL2 Module 0
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Preliminary Results
Visible energy distribution for 200 GeV pions- both modules- tail catcher energy cut
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Preliminary Results
Beam Energy [GeV]
Rel
ativ
e E
nerg
y R
esol
utio
n [%
]
0
5
10
15
20
25
30
35
40
0 25 50 75 100 125 150 175 200
ATLAS Requirement (jets)
Test Beam Data&Fit
MC of Test Beam
MC Intrinsic Resolution.
Pion Energy Resolution cf Monte Carlo
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Higgs Discovery
End on View of a simulated Higgs Bosonproduced in the ATLAS Detector