¿ De qué está hecho el Universo - Projects · ¿De qué está hecho el Universo? 65 CONCLUSIONS...
Transcript of ¿ De qué está hecho el Universo - Projects · ¿De qué está hecho el Universo? 65 CONCLUSIONS...
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Carlos Muñoz
Residencia de Estudiantes, Madrid, 6 Noviembre 2014
¿ De qué está hecho el Universo ?de las partículas elementales a la materia oscura
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Carlos Muñoz
IFT UAM-CSIC
¿De qué está hecho el Universo? 2
RESUMEN
1. Solo entenderemos la composición del Universo si conocemos las
partículas elementales que lo constituyen y las fuerzas que se ejercen
entre ellas
• Describiremos todas las partículas y las interacciones conocidas
3. Supersimetría, Supercuerdas, ...
• ¿De qué está hecha la materia oscura?
2. Después especularemos
• ¿Hacen falta más partículas en nuestra lista?
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Carlos Muñoz
IFT UAM-CSIC
¿De qué está hecho el Universo? 3
Esta charla, al ser la primera, espero que sirva de introducción a otras
charlas posteriors de este ciclo donde se desarrollarán de forma mucho más
extensa temas que aquí solo se introducen:
Higgs, quarks y gluones, cuerdas, cosmología, etc.
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What is the Universe made of? 4
finalized in 1948 whenFeynman, Schwinger, Tomonagashowed it was renormalizable(Nobel Prize in 1965)
The mess at the beginning of the 20th century:Heat, magnetism, electricity, light, X-rays, ultraviolet rays, …
QED is a quantum field theory, wherethe particles are excitations of the fields
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What is the Universe made of? 5Carlos Muñoz
IFT UAM-CSIC
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What is the Universe made of? 6Carlos Muñoz
IFT UAM-CSIC
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Carlos Muñoz What is the Universe made of?
Gell-Mann (Nobel Prize in 1969)Zweig 1964, proposed quarks
Friedman, Kendall & Taylordiscovered the quarks in 1967-73 at SLAC (Nobel Prize in 1990)
QCD was finalized in 1973 when Gross & Wilczek, Politzerproposed asymptotic freedom(Nobel Prize in 2004)
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What is the Universe made of?8
m = 1/7 mp
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What is the Universe made of? 9Carlos Muñoz
IFT UAM-CSIC
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¿De qué está hecho el Universo? 10Carlos Muñoz
IFT UAM-CSIC
(-1/3)
(+2/3)
(-1)
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Glashow, Weinberg, Salam,proposed the electroweak theorySU(2)XU(1) in 1960’s(Nobel Prize in 1979)
Rubia, Van der Meer,discovered W, Z in 1983 at CERN(Nobel Prize in 1984)
‘t Hooft, Veltman,showed it was renormalizablethanks to the Higgs mechanismin early 1970’s(Nobel Prize in 1999)
La emission de neutrinos está asociada a la desintegración beta. Parecía que este procesono conservaba la energía y eso llevó a Pauli a postular la existencia de una partícula nueva (el neutrino)
25 años más tarde, Reines lo descubrió(Nobel Prize in 1995)
la carga está relacionada con el estado de
movimiento y no con el tipo de partícula
(aquellas con espín anti-paralelo a la
dirección del movimiento poseen carga débil)
Carlos Muñoz
IFT UAM-CSIC
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What is the Universe made of? 12Carlos Muñoz
IFT UAM-CSIC
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¿De qué está hecho el Universo? 13Carlos Muñoz
IFT UAM-CSIC
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~0.00000001
¿De qué está hecho el Universo? 14Carlos Muñoz
IFT UAM-CSIC
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~0.00000001
Mendeleiev, 1869
~1970’s
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Kobayashi & Maskawa,predicted in 1972 a third familiy of quarks(Nobel Prize in 2008)
b and t discovered in 1977 and 1995 at Fermilab
Mendeleiev, 1869
~0.00000001
~1970’s
H~125000
And, in addition, the Higgs boson exists!
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Glashow, Iliopoulos & Maiani,predicted in 1970 the quark c
Richter at SLAC, Ting at BNLdiscovered it in 1974 (Nobel Prize in 1976)
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The Higgs is not just another elementary particle
Englert & Brout,proposed this mechanism in 1964.Higgs also the particle associated(Nobel Prize in 2013) Almost 50 years later, LHC discovered it
It has a huge mass = 125 mp . Only the top quark is heavierIt’s a scalar. The first known elementary particle with spin=0
The Higgs (field) defines the vacuum. Since <0|H|0>=v≠0, wecan imagine the quantum vacuum as a sea full of the Higgs field(rather like the concept of the ether of one century ago!)
All particles interact with the Higgs field, getting their unique masses.
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¿De qué está hecho el Universo? 19Carlos Muñoz
IFT UAM-CSIC
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¿De qué está hecho el Universo? 20
Besides, the standard model providesthe fundaments of the early Universe cosmology
Carlos Muñoz
IFT UAM-CSIC
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¿De qué está hecho el Universo? 21
History
Symmetries are crucial in physics
The laws of modern physics are invariant under certain symmetries:
Lorentz transformations [special relativity] Local gauge transformations [SU(3)CxSU(2)LxU(1)Y]
Supersymmetry (SUSY) was proposed in the early 1970’s:Golfand, Likhtman, 1971
Volkov, Akulov, 1972Wess, Zumino, 1974
SPECULATION: Do other particles exist still undetected ?
Carlos Muñoz
IFT UAM-CSIC
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¿De qué está hecho el Universo? 23
Boson Fermion
Fermion Boson
But known bosons and fermions are not married up in this fashion
Quarks (u,d)ElectronNeutrino
GluonsW, Z
Photon
Instead, every known particle should have a (super) partner Fayet, 1976
The spectrum of elementary particles is doubled ! With masses 1000
QuarksElectronNeutrino
SquarksSelectronSneutrino
GluonsPhoton
W, Z
GluinoPhotinoWino, Zino
An invariance of the theory under interchange of fermions and bosons
L (bosons, fermions) L (fermions, bosons) = L (bosons, fermions)
mp
Carlos Muñoz
IFT UAM-CSIC
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¿De qué está hecho el Universo? 24
~0.00000001
H~125000
spin 0 particle
Carlos Muñoz
IFT UAM-CSIC
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¿De qué está hecho el Universo? 25
~0.00000001
Hu , Hd
~125000
spin 0 particles
Hu , Hd
spin 1/2 particle
~ ~
Carlos Muñoz
IFT UAM-CSIC
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¿De qué está hecho el Universo? 27
( 1000 mp )( 100 mp )
msusy 1000 mp
.
Carlos Muñoz
IFT UAM-CSIC
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LEP LHC
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¿De qué está hecho el Universo? 29
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E.g., in 2012 with a luminosity of 20 fb-1 and a QCD jet production cross sectionof 106 pb, 2x1010 events of this kind were produced. These are just background events, but they have to be analyzed!! in order to find the new physics
But no more than 2x106 events of this kind can be produced!!
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Detection of the Higgs
In spite of the huge backgrounds, ATLAS and CMS detectors at the LHC were able to observe the Higgs in 2012.
(gg H) 10 pb H clean decay
¿De qué está hecho el Universo?38
Carlos MuñozIFT UAM-CSIC
…perhaps it is one of the Higgses also predicted by models beyond the standard model…
already ~ 1 million Higgses produced at LHC
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¿De qué está hecho el Universo?38
Carlos MuñozIFT UAM-CSIC
Englert, Higgs, Nobel Prize in 2013
Be prepared for more Nobel Prizes thanks to the LHC
Particle physics is living a historical moment:
-Years before the LHC, too early to test any model or theory
-Years later, too late, the unknown will already be known
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¿De qué está hecho el Universo? 33
MORE SPECULATIONS: What about gravity?
Carlos Muñoz
IFT UAM-CSIC
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¿De qué está hecho el Universo? 35
Might be finite
Carlos Muñoz
IFT UAM-CSIC
Schwarz, Scherk, 1974Green, Schwarz, 1984
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Carlos Muñoz Metaphysics 36
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¿De qué está hecho el Universo? 37
~0.00000001
Hu , Hd
~125000
spin 0 particles
Hu , Hd
spin 1/2 particle
~ ~
All this zoo is unifiedin an unique fundamental object
Carlos Muñoz
IFT UAM-CSIC
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38¿De qué está hecho el Universo?Carlos Muñoz
IFT UAM-CSIC
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Materia Oscura 46
Summarizing: Apart from speculations, everything in the Universe is made of quarks and leptons,
exchanging photons, W, Z, gluons (also gravitons?) in the Higgs vacuum
EVERYTHING ?
One of the great enigmas still unsolved is the existence of dark matter
Carlos Muñoz
IFT UAM-CSIC
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giant galaxy cluster CL0025+1654, about 1000 Mpc away
The analysis reveals that the cluster's dark matter (shown in blue) is not evenly distributed, but follows the clumps of luminous matter closely
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Carlos Muñoz Materia Oscura 50
A SOLUTION
To assume that there is non-luminous matterin and around the Galaxies
It has gravitational interaction but no electromagnetic interaction
Zwicky, 1933
This hypothesis is not so odd if we remember that the existence of Neptunewas suggested on the basis of the irregular motion of Uranus
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85% of the matter in the Universe is dark
As often remarked, this impliesanother Copernican revolution:
We are not the center of the Universe
+
We are not made of what most of the Universe is made of !
Carlos Muñoz
IFT UAM-CSIC
Materia Oscura 76
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BUT…also Dark Energy !!
Perlmutter, Schmidt, Ries,discovered in 1998 the acceleratingexpansión of the Universe(Nobel Prize in 2011)
Carlos Muñoz
IFT UAM-CSIC
Materia Oscura 77
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Thus to decipher the nature of the dark matter is one of the great enigmas still unsolved
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Materia Oscura 56
Within the Standard Model of particle physics there are no candidates
This is a clear indication that we need to go
beyond the standard model of particle physics
PARTICLE CANDIDATES
Carlos Muñoz
IFT UAM-CSIC
i.e. we need to speculate
We need a new particle with the following properties:
Stable or long-lived
Neutral Otherwise it would bind to nuclei and would be excluded from unsuccessful searches for exotic heavy isotopes
Produced after the Big Bang and still present today
Reproduce the observed amount of dark matter
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Could this new particle be a supersymmetric particle?
Carlos Muñoz
IFT UAM-CSIC
photino, sneutrino, gravitino
the question now is: Can we detect it in experiments ?
Let us then assume that this kind of particles existand that any of them is the dark matter
Materia Oscura 55
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DETECTION
The LHC could detect a new kind of particle
…but how can we be sure it is stable on cosmological scales?
58Carlos Muñoz
IFT UAM-CSIC
A complete confirmation can only arise from experimentswhere the particle is detected as part of the galactic halo
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DETECTION
Since the detection will be on the Earth or on satellites, we only needto know the properties of the Galactic halo near the Earth
For m ~ 100 mp these imply
J ~ 100,000 particles/cm2 s,
and therefore direct detection through elasticscattering with nuclei in a detector is possible
Goodman, Witten, 85Wasserman, 86
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Carlos Muñoz Materia Oscura 62
experiment: Installing the detectors
inside the copper box and shield
View of some detectors
in the copper box in
progress of installation
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Annihilation of dark matter particles in the galactic halo will produce gamma rays, antimatter, neutrinos
and these can be measuredin space–based detectors:Fermi (gammas), PAMELA, AMS (antimatter)
or Cherenkov telescopesMAGIC, HESS, VERITAS, CANGAROO (gammas)
INDIRECT DETECTION
Materia Oscura 63Carlos Muñoz
IFT UAM-CSIC
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Dark matter can accumulate in the Sun or the Earth. Its annihilation willproduce neutrinos which can be detected in neutrino telescopes, speciallythrough the muons produced by their interactions in the rock
Underwater experiments(ANTARES with a size of 104
m2. In the future KM3NeTwith a size of 106 m2 )
Under-ice experiments(IceCube witha size 106 m2 )
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¿De qué está hecho el Universo? 65
CONCLUSIONS
Supersymmetry, that predicts that every known particle should have a partner, has candidates for dark matter, which could be tested in the LHC and in direct and indirect detection experiments
However, one of the great enigmas still unsolved is the existence of dark matter
Within the standard model there are no possible candidates, thus we need to assume the existence of new particles
The standard model of particle physics “almost” answers the question: What is the Universe made of?
Supersymmetry is not sufficient to unify gravity with the otherinteractions in Nature, but perhaps string theory allow us to achive thisgoal
Carlos Muñoz
IFT UAM-CSIC