Deconstruction: Standard Model Discoveries

Deconstruction: Standard Model Discoveries

deconstruction: standard model discoveries elementary types of particles form the basis for the theoretical framework known as the Sixteen Standard Model of fundamental particles and forces. J.J. Thomson discovered the electron in 1897, while scientists at Fermilab saw the first direct interaction of a tau neutrino with matter less than 10 years ago. This graphic names the 16 particle types and shows when and where they were discovered. These particles also exist in the form of antimatter particles, with the same mass and the opposite electric charge. Together, they account for about 300 subatomic particles observed in experiments so far. The Standard Model also predicts the Higgs boson, which still eludes experimental detection. Experiments at Fermilab and CERN could see the first signals for this particle in the next couple of years. Other funda- mental particles must exist, too. The Standard Model does not account for dark matter, which appears to make up 83 percent of all matter in the universe. 1968: SLAC 1974: Brookhaven & SLAC 1995: Fermilab 1979: DESY u c t g up quark charm quark top quark gluon 1968: SLAC 1947: Manchester University 1977: Fermilab 1923: Washington University* d s b γ down quark strange quark bottom quark photon 1956: Savannah River Plant 1962: Brookhaven 2000: Fermilab 1983: CERN νe νμ ντ W electron neutrino muon neutrino tau neutrino W boson 1897: Cavendish Laboratory 1937 : Caltech and Harvard 1976: SLAC 1983: CERN e μ τ Z electron muon tau Z boson *Scientists suspected for several hundred years that light consists of particles. Many experiments and theoretical explana- tions have led to the discovery of the photon, which explains both wave and particle properties of light. 30 The 1950s saw a proliferation of particle discoveries, thanks to the advent of accelerator-based experiments. By 1960, more than 100 particles were known and physicists began to find patterns. Slowly the Standard Model emerged. It has brought order to the particle zoo and explains a steadily increasing number of subatomic phenomena. Here is a brief summary of 15 Nobel Prize-winning discoveries closely connected to the development of the Standard Model, beginning with the “particle explosion” in the 1950s. For more information, visit nobelprize.org. Text: David Harris and Kurt Riesselmann u d s u d s u d Nobel work: discovering a large Nobel work: classifying the Nobel work: finding the first number of particles, achieved experimentally observed particle evidence that protons and neutrons through the development of new zoo by introducing the concepts are made of smaller building detection and analysis tools of strangeness and quarks blocks: quarks Laureate: Luis Alvarez Laureate: Murray Gell-Mann Laureates: Jerome Friedman, Discovery made: 1959–1964 Discovery made: 1953, 1961, 1964 Henry Kendall, and Richard Taylor Nobel awarded: 1968 Nobel awarded: 1969 Discovery made: 1968 Nobel awarded: 1990 s s c Nobel work: predicting that the Nobel work: discovering that neu- Nobel work: pioneering work in the weak nuclear force violates parity, or tral K mesons, which contain a discovery of the charm quark, the mirror symmetry, which leads to strange quark, violate the fundamental fourth quark observed in experiments experimental signatures in beta decay matter-antimatter symmetry Laureates: Burton Richter and as well as decay of strange particles known as CP Samuel Ting Laureates: Tsung-Dao Lee and Laureates: James Cronin and Discovery made: 1974 Chen Ning Yang Val Fitch Nobel awarded: 1976 Discovery made: 1956 Discovery made: 1964 Nobel awarded: 1957 Nobel awarded: 1980 t b νe νe Nobel work: predicting the bottom Nobel work: detecting the first Nobel work: detecting cosmic and top quarks to explain the sym- neutrino neutrinos, produced by the sun and metry-violating behavior of particles Laureate: Frederick Reines by supernova explosions, thus start- containing a strange quark (sharing the prize with Martin Perl) ing the field of neutrino astronomy Laureates: Makoto Kobayashi Discovery made: 1956 Laureates: Raymond Davis and and Toshihide Maskawa (sharing Nobel awarded: 1995 Masatoshi Koshiba (sharing the the prize with Yoichiro Nambu) prize with Riccardo Giacconi) Discovery made: 1973 Discovery made: 1980s Nobel awarded: 2008 Nobel awarded: 2002 νμ τ g Nobel work: showing that there Nobel work: discovering the tau Nobel work: discovering that as two are at least two types of neutrinos, lepton, the first observation of a parti- quarks move away from each other thereby discovering the muon neutrino cle that belongs to the third they remain tightly bound together Laureates: Leon Lederman, Melvin generation of elementary particles due to the strong nuclear force, medi- Schwartz, and Jack Steinberger Laureate: Martin Perl (sharing the ated by the exchange of gluons. Discovery made: 1962 prize with Frederick Reines) Laureates: David Gross, David Nobel awarded: 1988 Discovery made: 1976 Politzer, and Frank Wilczek Nobel awarded: 1995 Discovery made: 1973 Nobel awarded: 2004 γ W Z W Z W Z symmetry | volume 06 | issue 02 may 09 Nobel for: developing a unified elec- Nobel work: placing particle phys- Nobel work: making contributions troweak theory that explains both the ics theory on a firmer mathematical to the project that led to the electromagnetic force (transmitted by foundation, elucidating the quantum first direct observation of theW and photons) and the weak force (trans- structure of the electroweak theory Z bosons mitted by W and Z bosons) Laureates: Gerardus ‘t Hooft and Laureates: Carlo Rubbia and Laureates: Sheldon Lee Glashow, Martinus Veltman Simon van der Meer Abdus Salam, and Steven Weinberg Discovery made: 1971 Discovery made: 1983 Discovery made: 1960s Nobel awarded: 1999 Nobel awarded: 1984 Nobel awarded: 1979 31.

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