boson de higgs explicado (ingles)
DESCRIPTION
Física cuanticaTRANSCRIPT
Higgs Boson for Dummies
Bojan Golli
Faculty of Education, University of Ljubljana
1st South-Eastern European Meeting on Physics Education 2012
September 11, 2012
Bojan Golli Higgs Boson for Dummies
For dummies?
I am not supposed to start from the Higgs Lagrangian
� which I would not do anyway.
Bojan Golli Higgs Boson for Dummies
What is the Higgs boson?
A particle that gives mass to elementary particles of the Standard model� an idea proposed by Peter Higgs in 1960.
Paper rejected in Phys. Lett. "of no obvious relevance to physics"
Heisenberg: "You do not understand the rules of physics."
Bojan Golli Higgs Boson for Dummies
Questions:
What is mass?
What are the elementary particles?
What is the mechanism that generates mass of particles?
How (new) particles are discovered?
How do we know that the particle discovered at CERN is indeed theHiggs boson?
Bojan Golli Higgs Boson for Dummies
Questions:
What is mass?
What are the elementary particles?
What is the mechanism that generates mass of particles?
How (new) particles are discovered?
How do we know that the particle discovered at CERN is indeed theHiggs boson?
Bojan Golli Higgs Boson for Dummies
Questions:
What is mass?
What are the elementary particles?
What is the mechanism that generates mass of particles?
How (new) particles are discovered?
How do we know that the particle discovered at CERN is indeed theHiggs boson?
Bojan Golli Higgs Boson for Dummies
Questions:
What is mass?
What are the elementary particles?
What is the mechanism that generates mass of particles?
How (new) particles are discovered?
How do we know that the particle discovered at CERN is indeed theHiggs boson?
Bojan Golli Higgs Boson for Dummies
Questions:
What is mass?
What are the elementary particles?
What is the mechanism that generates mass of particles?
How (new) particles are discovered?
How do we know that the particle discovered at CERN is indeed theHiggs boson?
Bojan Golli Higgs Boson for Dummies
What is mass?
One of the basic physical quantity; related to two di�erent concepts:
Inertial mass
m
F
a
~F = m~a
~a is the acceleration of the body
Gravitational mass
m
F
weight: ~F = m~g
~g is the strength ofthe gravitational �eld
Bojan Golli Higgs Boson for Dummies
What is mass?
One of the basic physical quantity; related to two di�erent concepts:
Inertial mass
m
F
a
~F = m~a
~a is the acceleration of the body
Gravitational mass
m
F
weight: ~F = m~g
~g is the strength ofthe gravitational �eld
Bojan Golli Higgs Boson for Dummies
Relativity
Equivalence principle: both masses are equivalent
Bojan Golli Higgs Boson for Dummies
Relativity: mass and energy
Mass and energy are equivalent:
E = mc2 , c = 299 792 458 m/s .
A body at rest has energy due to its (rest) mass;also, a moving body acquires larger mass compared to its rest mass m0:
m =m0√1− v2
c2
.
The Higgs boson provides nonzero rest mass (m0)
Bojan Golli Higgs Boson for Dummies
Relativity: light bending
The photon (light) has nonzero mass due to its energy; it is de�ected inthe gravitational �eld, e.g. of the Sun:
Bojan Golli Higgs Boson for Dummies
Massless particles
Some particles, e.g. the photon (light), the neutrino ν. . . travel with thespeed of light c.
m0 = m×√
1− v2
c2 = 0 , if v = c .
Hence
Particles that travel with the speed of light have zero rest mass.
Vice versa: Massless particles cannot rest; they always travel withthe speed of light.
Strange behaviour? Not at all; according to Higgs, there is nothingwrong with massless particles; what is strange is that the "normal"bodies rest or travel with the speed less than the speed of light.
Bojan Golli Higgs Boson for Dummies
Massless particles
Some particles, e.g. the photon (light), the neutrino ν. . . travel with thespeed of light c.
m0 = m×√
1− v2
c2 = 0 , if v = c .
Hence
Particles that travel with the speed of light have zero rest mass.
Vice versa: Massless particles cannot rest; they always travel withthe speed of light.
Strange behaviour? Not at all; according to Higgs, there is nothingwrong with massless particles; what is strange is that the "normal"bodies rest or travel with the speed less than the speed of light.
Bojan Golli Higgs Boson for Dummies
Massless particles
Some particles, e.g. the photon (light), the neutrino ν. . . travel with thespeed of light c.
m0 = m×√
1− v2
c2 = 0 , if v = c .
Hence
Particles that travel with the speed of light have zero rest mass.
Vice versa: Massless particles cannot rest; they always travel withthe speed of light.
Strange behaviour? Not at all; according to Higgs, there is nothingwrong with massless particles; what is strange is that the "normal"bodies rest or travel with the speed less than the speed of light.
Bojan Golli Higgs Boson for Dummies
Microscopic world
Matter consists of building blocks
mbody ≈ Np mproton + Nn mneutron ,
mproton ≈ mneutron , melectrons � mproton
Bojan Golli Higgs Boson for Dummies
Elementary particles
But: mproton 6= mu quark + mu quark + md quark .
In fact:mu quark ≈ md quark ≈ melectrons ∼ 1
1000 mproton .
mproton ≈Wkinetic
c2 .
Bojan Golli Higgs Boson for Dummies
Standard model (Periodic table of elementary particles)
mc quark ≈ mproton
mb quark ≈ 4 mproton
mt quark ≈ 180 mproton
mτlepton ≈ 4000 melectrons ≈ 2 mproton
Are heavy quarks and leptons composite particles?No, there is no evidence whatsoever for their internal structure.
How do we then explain their large masses?Answer: the Higgs mechanism
Bojan Golli Higgs Boson for Dummies
Standard model (Periodic table of elementary particles)
mc quark ≈ mproton
mb quark ≈ 4 mproton
mt quark ≈ 180 mproton
mτlepton ≈ 4000 melectrons ≈ 2 mproton
Are heavy quarks and leptons composite particles?No, there is no evidence whatsoever for their internal structure.
How do we then explain their large masses?Answer: the Higgs mechanism
Bojan Golli Higgs Boson for Dummies
Standard model (Periodic table of elementary particles)
mc quark ≈ mproton
mb quark ≈ 4 mproton
mt quark ≈ 180 mproton
mτlepton ≈ 4000 melectrons ≈ 2 mproton
Are heavy quarks and leptons composite particles?No, there is no evidence whatsoever for their internal structure.
How do we then explain their large masses?Answer: the Higgs mechanism
Bojan Golli Higgs Boson for Dummies
What is the role of bosons?
Classical explanation oflong range forces (e.g.electro-magnetic force):A charged particle createsa �eld in the surroundingspace.
Quantum explanation(Feynman): a chargedparticle emits a photon(a boson, in general) anda second particle absorbsit.
Bojan Golli Higgs Boson for Dummies
Elementary interactions
gluon is the exchange boson of the strong interaction between quarks
d© u©g
weak bosons (W±, W0, Z) carry the weak interaction
Two complementary interpretation: Bosons are elementary excitations ofthe �eld; on the other hand, the �eld is a condensate of bosons, e.g. theelectron is surrounded by a cloud of the so called virtual photons.
Bojan Golli Higgs Boson for Dummies
Higgs �eld
Higgs assumed the existence of a new �eld, � the Higgs �eld �, that �llsall of space and has no external source. The Higgs boson is anelementary excitation of the �eld.
The source of the Higgs �eld is the Higgs �eld itself. In the alternativepicture, the Higgs bosons in the condensate attract each other. Theresulting potential energy of the system has its minimum at a non-zerovalue of the �eld.
Bojan Golli Higgs Boson for Dummies
Mass generation
All elementary particles are massless and therefore move with the speedof light. But most of them bounce o� the Higgs bosons in the vacuumand hence e�ectively move with a �nite velocity. Their kinetic energy istransformed into the rest energy (mass).
Some particles � including the Higgs boson itself � interact morefrequently than the others; it means they are more massive. Photons,gluons, neutrinos do not interact at all; they are massless � moreprecisely, their rest energy is zero.
Bojan Golli Higgs Boson for Dummies
Production of the Higgs boson
In order to observe a free Higgs boson, a huge amount of energy has tobe transferred to the vacuum (i.e to the Higgs �eld). A particle inquantum mechanics is described as a wave with frequency ν = E/h (h isthe Planck constant). The largest probability to excite an oscillation is atthe resonance � i.e. when the transferred energy is equal to the energy(mass) of the particle.
Bojan Golli Higgs Boson for Dummies
Discovery of new boson
At the proton collider at CERN two proton traveling in opposite directioncollide and produce a shower of particles, mostly quark-antiquark pairs,which in turn annihilates and produce long lived particle that are �nallydetected and analyzed by two independent experimental groups.
Bojan Golli Higgs Boson for Dummies
Two "cleanest" events
Bojan Golli Higgs Boson for Dummies
Conclusion
So far the observations are consistent with the observed particle being
the Standard Model Higgs boson.
The particle decays into at least some of the predicted channels.
Moreover, the production rates and branching ratios for the observed
channels match the predictions by the Standard Model within the
experimental uncertainties.
However, the experimental uncertainties currently still leave room for
alternative explanations.
It is therefore too early to conclude that the found particle is indeed the
Standard Model Higgs.
[PDGLive. Particle Data Group. 12 July 2012.]
Bojan Golli Higgs Boson for Dummies
Spontaneous breaking of chiral symmetry
The reason for introducing the Higgs �eld actually lies in the observationthat the equations of motion preserve the chiral symmetry while in naturethis symmetry is violated.The symmetry requires that the helicity, i.e. the projection of particlespin onto the direction of motion, is a good quantum number, and theelementary particles are supposed to be either left- or right-handed.
This solution is however not realized in nature: if one observer sees aright handed electron then for another observer, moving with the velocitygreater than the electron velocity in the same direction, the electron hasopposite helicity. The helicity is preserved only for massless particlesmoving with the speed of light; massive particles violate the symmetry.
Bojan Golli Higgs Boson for Dummies
Spontaneous breaking of chiral symmetry
The situation in which the underlying laws are invariant under somesymmetry while the solution is not is called "spontaneous symmetrybreaking" and the Higgs mechanism is a model that describes suchbreaking.
Bojan Golli Higgs Boson for Dummies