Authors: Sean Carroll
The Particle at the End of the Universe: How the Hunt for the Higgs Boson Leads Us to the Edge of a New World (52 page)
discovery of, 19
and evidence for the Higgs boson, 96
generations of,
49
and Higgs decay modes,
171,
173
mass of,
49,
49–50, 53–54, 143,
294
and neutron decay,
47
and OPERA experiment findings, 195–97
and particle detectors, 104–5,
109
and particle spin, 286, 292
and proton decay, 46–48
types of, 48
neutrons
and atomic structure, 10–11, 42–43
constituent quarks, 294
mass of, 60, 145
neutron decay, 46–47, 131–34,
230
and quarks, 51
and symmetry-breaking, 154–55
and total mass of ordinary matter, 247
and weak interactions, 32
neutron stars, 124, 200–201
Neveu, André, 262
New Scientists,
200
news media.
See
media and public attention to physics
Newton, Isaac, 21, 118–20, 123, 125, 222
Newtonian mechanics, 128
New York Times,
203
Nielsen, Holger, 261
Nobel, Alfred, 210, 237
Nobel Dreams
(Taubes), 179–80
Nobel Prizes in Physics
and the Bevatron, 56
and Brookhaven National Lab, 67
for cosmic acceleration, 255
criteria for selection, 210–12
for dark energy, 221
establishment of, 210
for gluon fusion, 168
for hadron discoveries, 30, 106
for Higgs boson, 239–41
Lamb on, 50
for neutrinos types, 19
for parity violation, 155
for photoelectric effect, 127
for quark discovery, 66–67
for relativity confirmation, 124
for symmetries of weak interactions, 158
for W and Z bosons discoveries, 62, 80, 237
and World War II, 209–10
Not Even Wrong
(blog), 202
nuclear forces, 30–31, 117, 213.
See also
strong nuclear force; weak nuclear force
nuclear fusion, 272
nuclei of atoms, 28, 42
nucleons, 42
nucleosynthesis, 247
Oliver, John, 189–91
O’Neill, Gerard K., 62
Oort, Jan, 244
OPERA experiment, 195–96
Oppenheimer, Robert, 156
Organisation Européenne pour la Recherche Nucléaire, 61
Ørsted, Hans Christian, 121
Ouellette, Jennifer, 204, 205
“Out of Control” (report), 71
outreach, 207–8
Overbye, Dennis, 203
paleontology, 93–94
parity, 158, 231–32
Park, Bob, 72
Particle Fever
(film), 207–8
partons, 101–2,
102,
129
Pastore, John, 269
Pauli, Wolfgang, 46–47, 155–56, 212, 228–29
Pauli exclusion principle, 131
“Payload for Antimatter Matter Exploration and Light-nuclei Astrophysics” (PAMELA), 200–202
peer-review, 192–95
periodic table of the elements, 10
Perlmutter, Saul, 255
photoelectric effect, 127, 164
photons
and electromagnetism, 29
and electron orbits, 145
and electroweak unification, 235
and field/particle duality, 125–26
and gravity, 143
and Higgs decay modes, 16,
171,
173,
173,
184–88, 202, 249–50
and the Higgs mechanism, 224
masslessness of, 143
and neutron decay, 132–33
and particle detectors, 96, 104, 108–10
and particle spin,
53,
285, 286, 288
and the photoelectric effect, 127
and quantum field theory, 33
and Schwinger’s model, 231
and supersymmetry, 258,
259
Physical Review Letters,
223, 224
Physics Letters,
223–24
Picozza, Piergiorgio, 201
“pileup,” 102, 182, 185
pions, 295
Pius XII, Pope, 22
Planck, Max, 126–27, 128
Planck scale, 254, 260
Planck’s constant, 284
planetary motion, 118–20
Polchinski, Joseph, 265
politics, 1–2, 17–18, 24, 69–73, 82
Politzer, David, 30
Polyakov, Alexander, 228
positrons
discovery of, 44–46,
46,
97
and linear accelerators, 66
and PAMELA experiment, 200–201
and particle detector findings, 104
potential energy, 140
Preposterous Universe
(blog), 198
“Primeval Atom” theory, 22
probability, 111, 129, 167–68,
168. See also
statistical analysis
Project Exploration, 93–94
proton-antiproton colliders, 80, 90
protons
and atomic structure, 10–11, 42
constituent particles, 101, 166, 294
energies achieved in the LHC, 86–88
and mass/energy equivalency, 57–60
mass of, 60, 145
and neutron decay, 133–34
and particle accelerators, 58, 63
and quarks, 51, 67
relativity effects, 101–2,
102
and symmetry-breaking, 154–55
and total mass of ordinary matter, 247
Proton Synchrotron, 61
publicity and public relations.
See
media and public attention to physics
quanta, 126
A
Quantum Diaries Survivor
(blog), 198
quantum field theory
and field values, 253
and the Higgs field, 32–34
and infinite-answer problem, 229
and neutron decay, 131–33
and particle accelerators, 57
and particle spin, 285, 288
and spacetime dimensionality, 263
summarized, 36
vibrations in fields, 131–33
and Ward identities, 233
and wave functions, 129
quantum gravity, 254, 262, 264, 267
quantum mechanics
analogy for, 128–30
and atomic structure, 41–42
and black hole radiation, 211
Coleman on, 281
and energy/wavelength connection, 125–26
and experimental results, 14
and field/particle duality, 125–26
and field theory, 33
fuzziness of, 34
and gravity, 25, 29
and particle spin, 129, 283–85
and probability, 111
and spontaneous symmetry-breaking, 227
and statistical analysis, 178–81
and virtual particles, 101
quantum uncertainty,
35
quarks
and atomic structure, 10–11, 28
color labels, 50–51,
51,
149, 153, 172, 216, 257, 259, 294
and connection fields, 153
and creation of Higgs bosons, 166–67, 169
and dark matter,
251
described, 293
discovery of, 19
and Feynman diagrams,
168
and Higgs decay modes,
171,
171–74, 187
and mass, 53, 143, 145,
294
and neutron decay, 133–34
and nuclear forces, 30
and particle detectors, 96–97, 103, 104
and particle spin, 285, 286, 291–92
and proton collisions,
102
and proton structure, 101
and quantum field theory, 129
quark-gluon plasma, 97–98
and the Relativistic Heavy-Ion Collider (RHIC), 67
and resting value of Higgs field, 146
and the Standard Model, 26,
51,
198
and the strong nuclear force, 41
and supersymmetry,
259
and virtual particles, 51, 101
See also
specific types of quarks
quench, 76
Rabi, I. I., 48
radiation and radioactivity, 29, 41, 131–32, 250
radio waves, 122
Ramond, Pierre, 262
Randall, Lisa, 265
Reagan, Ronald, 69
reconciliation, 218–21
Relativistic Heavy-Ion Collider (RHIC), 67, 69
relativity
and “aether” theory, 139
and creation of Higgs bosons, 166
effect on protons, 101–2,
102
and gravity, 29
and the Higgs mechanism, 225
Nobel Prizes for, 124
and particle mass, 58, 142–44
and resting value of Higgs field, 139, 273
and superconductivity, 215
and symmetry, 220–21, 223
and velocities in the LHC, 86–87
relic abundance, 246
religion and physics, 21–22, 22–24
renormalization, 229, 235, 236, 239