The Alpha Magnetic Spectrometer (AMS) Experiment
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Transcript of The Alpha Magnetic Spectrometer (AMS) Experiment
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The Alpha Magnetic Spectrometer (AMS) Experiment
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Outline
• Overview of cosmic ray science• AMS-02 Detector• Measurements to be made by AMS-02• Current status of AMS-02
10/13/11
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Fundamental Science on the International Space Station
On Earth we live under 60 miles of air, which is equivalent to 30 feet of water. This absorbs all the charged particles.
Hubble, Chandra, γ
AMS
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The Highest Energy Particles are Produced in the CosmosCosmic Rays with energies of 100 Million TeV
have been detected by the Pierre Auger Observatory in Argentina, which spans an area of 3,000 km2.
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Early History of Fundamental Discoveries from Charged Cosmic Rays in the Atmosphere
1912: Discovery of Cosmic Rays 1932: Discovery of positron 1947: Discovery of pions
Discoveries of 1936: Muon (μ) 1949: Kaon (K) 1949: Lambda (Λ) 1952: Xi (Ξ) 1953: Sigma (Σ)
e
As accelerators have become exceedingly costly, the ISS is a valuable alternative to
study fundamental physics.
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TRD
TOF
Tra
cke
r
TOFRICH
ECAL
1
2
7-8
3-4
9
5-6
TRD Identify e+, e-
Silicon Tracker Z, P
ECAL E of e+, e-, γ
RICH Z, E
TOF Z, E
Particles and nuclei are defined
by their charge (Z) and energy (E ~ P)
Z, P are measured independently bythe Tracker, RICH, TOF and ECAL
AMS: A TeV precision, multipurpose particle physics spectrometer in space.
Magnet±Z
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Photo Montage!!
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Photo Montage!!
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Photo Montage!!
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Photo Montage!!
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Photo Montage!!
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POCC at CERN in Geneva control of AMS
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1- Precision study of the properties of Cosmic Raysi. Composition at different energies (1 GeV, 100 GeV, 1 TeV)
AMS Physics examples
(
s-1 m
-2 sr
-1 G
eV-1)
25
AMS will measure of cosmic ray spectrafor nuclei, for energies from 100 MeV to 2 TeVwith 1% accuracy over the 11-year solar cycle.
These spectra will provide experimental measurements of the assumptions that go into calculating the background in searching for Dark Matter,
i.e., p + C →e+, p, …
Φ (
sr-1 m
-2 s
r-1 G
eV
-1)
E kin/n (G
eV)
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AMS-02 Deuteron to Proton Ratio
(Projection)
(98)
D/p
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Cosmic Ray Propagation
• Necessary to understand how cosmic rays travel from their sources to Earth.
• Notably, there are diffusion coefficients, and there are time constants which need to be accurately measured to determine the background cosmic ray flux.
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Precision study of the properties of Cosmic Raysii. Cosmic Ray confinement time
(Projection)
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Precision study of the properties of Cosmic Raysiii. Propagation parameters (diffusion coefficient, galactic winds, …)
(Projection)
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TRD
TOF
Tra
cke
r
TOFRICH
ECAL
1
2
7-8
3-4
9
5-6
Identifying Sources with AMS
Example: Pulsars in the Milky Way
Neutron star sending radiation in a periodic way.
AMS: energy spectrum up to 1 TeV and pulsar periods measured with μsec precision
A factor of 1,000 improvement in Energy and Time
Unique Features:17 X0, 3D ECAL,
Measure γ to 1 TeV,
Currently measured to energies of ~ GeV with precision of a millisec.
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T.Prodanovi´c et al., astro-ph/0603618 v1 22 Mar 2006
The diffuse gamma-ray spectrum of the Galactic plane
upper limits
AMS-02Space Experiments Ground Experiments
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Testing Quantum Gravity with photons
Two approaches are trying to elaborate quantum gravity: Loop Quantum Gravity && String Theory.
Both of them predict the observed photon velocity depends on its energy.
Loop Quantum Gravity: it might imply the discrete nature of space time tantamount to an ‘‘intrinsic birefringence’’ of quantum
space time.
For a gamma ray burst at 10 billion ly away and energy of ~200keV: A delay between the two group velocities of both polarizations
that compose a plane wave of 10ms.
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Testing String Theory with Photons
String Theory: Photon’s foamy structure at the scale of Planck length A non-trivial refractive index when propagating in
vacuum.
We also need to take into account the red shift effect. The time lag is:
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What can be used as a photon source?
Gamma ray burst (e.g. blazar) is suitable for this study: 1. Very bright – good for statistics and trigger;
2. Cosmological Distance – large enough time lags; 3. The light curves have spikes – easy to measure the time lags.
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Blazars + Gamma Ray Bursts
• Blazar: an Active Galactic Nuclei with Radio and Gamma emission and a jet oriented towards the Earth• Strong emission from radio to gamma wavelengths during Flares• Examples: Mrk421, Mrk501, 3C273 detected by Air-shower Cerenkov Telescopes
Jet
Physics:- astrophysical studies (jet production, inter-galactic absorption)- from flares (periods of strong emission) access to Quantum Gravity
AMS: energy spectrum for blazars in the 100 MeV – 1 TeV and pointing precision of few arcsec >5 GRBs/year in GeV range with 1% precision in energy and time-lags with μsec time precision (from GPS)
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Quantum Gravity – time lags
The Time Lags as a function of Energy with photons emitted by Blazars or GRBs may be seen in light curves measured for 2 different energy range:
Basic formula:
mean time lag = Δt = L/c ΔE/EQG
(L distance of the source, ΔE is mean energy difference and EQG is Quantum Gravity scale)
Mean E2 > mean E1Mean E1
Photon arrival time t
Time lag Δt
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Photon 40 GeV, 23 May AMS data on ISS
Direction reconstructed with
3D shower sampling
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e+/(
e+ +
e−)
e+ Energy [GeV]
The leading candidate for Dark Matter is a SUSY neutralino (0 ) Collisions of 0 will produce excess in the spectra of e+ different from known cosmic ray collisions
Collision of Cosmic Rays
AMS data on ISS
1 TeV
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Detection of High Mass Dark Matter from ISS
AMS-02
e+ Energy (GeV)
e+ /(
e+ +
e- )
m=400 GeVm=200 GeV
m=800 GeV
Events sample in first week
Collision of Cosmic Rays
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TeV Scale Singlet Dark MatterEduardo Pontón and Lisa Randall
Kaluza-Klein Bosons are also Dark Matter candidates
AMS-02 (18 yrs)
10-1
10-2
10-3
10310210e+ Energy (GeV)
Po
sitr
on
fra
ctio
n e
+/(
e+ +
e- )
sdm_500_18Yb
500 GeV
Fig.5
case 2arXiv:0811.1029v2 [hep-ph] 20 Jan 2009 - Fig.5
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Electron 240 GeV, 22 MayAMS data on ISS
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K
M
F
E
H
JL
IA
D
CG
B
At benchmarks “K” & “M”Supersymmetric particles are
not visible at the LHC.
Shaded region allowed by WMAP, etc.
M K
AMS is sensitive to SUSY parameter space that is difficult to study at LHC (large m0, m1/2 values)
M. Battaglia et al., hep-ph/0112013M. Battaglia et al., hep-ex/0106207M. Battaglia et al., hep-ph/0306219
D.N. Spergel et al., astro-ph/0603449
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Benchmark “M”(not accessible to LHC)
AMS spectrawith Mχ = 840 GeV
y06K318
AMS-02 (Projected spectrum from cosmic ray collisions)
p/p
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The physics of antimatter in the universe is based on:
The existence of a new source of CP Violation The existence of Baryon, Lepton Number Violation Grand Unified Theory Electroweak Theory SUSY
These are central research topics for the current and next generation of accelerators world wide
the Foundations of Modern Physics
Direct search for antimatter: AMS on ISS
Collect 2 billion nuclei with energies up to 2 trillion eV
Sensitivity of AMS: If no antimatter is found => there is no antimatter to the edge of the observable universe (~ 1000 Mpc).
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Strangelets: a single “super nucleon” with many u, d & s
- Stable for masses A > ~10, with no upper limit
- “Neutron” stars may be composed of one big strangelet
Carbon Nucleus Strangelet
Jack Sandweiss, Yale
33
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Z/A ~ 0.5 Z/A < 0.12
Searches
with terrestrial samples – low sensitivity.
with lunar samples – limited sensitivity.
in accelerators – cannot be produced at an observable rate.
in space – candidates…
Physics Example 5 - Search for New Matter in the Cosmos
Stable strange quark matter was first proposed by E. Witten, Phys. Rev. D,272-285 (1984)
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Nuclear charge Z=14, SiP = 136 GeV/c
AMS data on ISS
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Nuclear charge Z=8, OP = 119 GeV/c
AMS data on ISS
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May 19 to 24, 2011
AMS data on ISS
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AMS has collected over 10 billion events
First 9 months of AMS operations
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First Data from AMS and detector
performance
The detectors function exactly as designed.
Therefore, every year, we will collect 1.5*10+10 triggersand in 20 years we will collect 3*10+11 triggers.
This will provide unprecedented sensitivity to search for new physics.
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The issues of antimatter in the universe and the origin of Dark Matter probe the foundations of modern physics.
AMS is the only large scientific experiment to study these issues directly in space.
The Cosmos is the Ultimate Laboratory.Cosmic rays can be observed at energies higher than any accelerator.
AMS
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What is AMS doing now?
•Calibration, Calibration, Calibration!• AMS aims to measure charged particles up to
1TV rigidity, this requires one to know the position of the tracker to better than 5 microns in order to claim a sagitta measurement down to 10 microns!
• AMS is heated unevenly, and to great extremes, Movements created by different heating conditions must also be known to better than 5 microns.
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Uneven Heating of AMS aboard the ISS
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When will the data be ready?
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When will the data be ready?
As Late as possible!!