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dark matter

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Title: dark matter Author: High Energy Physics group Description: Schools presentation Last modified by: Susan Cartwright Created Date: 5/19/1998 3:51:11 PM – PowerPoint PPT presentation

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Title: dark matter


1
dark matter
  • The Stuff of the Universe?
  • Why do we need it?
  • What could it be?
  • How could we detect it?

Susan Cartwright University of Sheffield
2
dark matter
Why do we need it?
v constant
The Solar System
v?1/vr
  • Rotation of galaxies indicates that they contain
    matter that we do not see

M31 (Andromeda)
3
dark matter
Why do we need it?
  • cosmologists get in on the act
  • universal microwave background radiation
    remembers early universe
  • detailed structure depends on many factors
  • geometry of universe
  • Hubble constant
  • nature of matter
  • mapping the cosmic background tells us about
    the universe

4
dark matter
Why do we need it?
  • In general relativity spacetime is curved
  • universe can have non-Euclidean geometry
  • but it doesnt
  • The Universe is flat!
  • 73 dark energy
  • 23 dark matter
  • 4 atoms

Only 0.4 stars!
5
dark matter
What could it be?
Ordinary Matter or Exotic Particles
  • small, faint stars or near-stars
  • white dwarfs
  • red dwarfs
  • brown dwarfs
  • Jupiters
  • black holes
  • gas
  • neutrinos
  • known to exist, but usually assumed
    masslesswould need mass 0.002 of electron
  • WIMPs (weakly inter-acting massive particles)
  • predicted by many particle physics theories
  • axions

6
dark matter
How could we detect it?
  • Ordinary matter compact objects (stars and black
    holes)
  • just look!
  • microlensinglook for light bending round unseen
    object

?
?
7
Microlensing light (from star in Large Magel-
lanic Cloud) bending round unseen object
(in halo of our Galaxy)
focusing effect causes background star to
appear brighter
8
dark matter
How could we detect it?
  • Ordinary matter gas
  • rich clusters of galaxies contain hot gas (seen
    in X-rays)
  • low surface brightness galaxies (lots of gas, few
    stars) may be very common

Malin 1
9
dark matter
How could we detect it?
  • Exotic particles
  • massive neutrinos
  • look for evidence of missing mass in radioactive
    decays
  • no evidence found
  • look for neutrino oscillationschange of neutrino
    type (depends on difference between masses of the
    two types)
  • these do happen
  • but the implied mass is very small indeed
  • axions
  • can be converted to photons in magnetic field
  • no signal found (so far)

10
dark matter
Mining for WIMPs
  • WIMPs detected by observing recoil of nucleus
    from (very rare) direct hit
  • Need extremely low levels of background (natural
    radioactivity, cosmic rays)
  • Use a deep mine

Observe scintillation light, crystal lattice
vibrations, or heat
11
UKDMC
Boulby Mine
  • 1 km deep salt mine near Whitby
  • deep ? most cosmic rays are stopped
  • salt ? low background activity
  • detectors shielded by pure copper/lead or by pure
    water

12
UKDMC
Detectors at Boulby
liquid xenon scintillator
DRIFT directional detector
NaI scintillator
13
UKDMC
Search results
  • Most detected events are background (as expected)
  • A few looked interesting
  • but unfortunately also turned out to be
    background (surface contamination on crystals?)
  • New detectors using new technologies
  • larger (more mass)
  • better materials liquid xenon
  • better background rejection
  • different signals in xenon
  • directional info in DRIFT

background
?
14
UKDMC
Search results
  • Results from ZEPLIN I compared to other
    experiments
  • rules out signal claimed by DAMA group
  • world-classexperiment

15
dark matter
Journey from the centre of the Earth
  • WIMPs can be captured by the Earths gravity
  • In the Earths core they collide with other WIMPs
  • The resulting reaction produces high energy
    neutrinos which escape from the Earth
  • We could see WIMPs witha neutrino telescope

incomingWIMP iscaptured
producedneutrinoescapes
The same process takes place in the core of the
Sun
16
dark matter
Diving for WIMPs
  • A neutrino telescope detects the light radiated
    in water by muons produced from muon-type
    neutrinos
  • need huge detectoruse the sea or Antarctic ice
  • go deep to reduce cosmic ray background
  • AMANDA at South PoleANTARES in Mediterranean

17
dark matter
The Stuff of the Universe?
  • Dark matter certainly exists
  • and most of the universe seems to be dark
  • Ordinary (baryonic) dark matter certainly
    exists
  • dark stars, dark galaxies, and hot gas
  • Massive neutrinos certainly exist
  • but not massive enough to dominate the universe
  • WIMPs may or may not exist
  • and we could know within 5 years
  • Watch this space!
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