accelerated protons, first evidence
COCKCROFT 1932
- accelerator
-
-
- AGS synchrotron
AGS STAFF 1961
-
- Berkeley 184 inch synchrocyclotron
BROBECK 1947
-
- betatron
KERST 1940
KERST 1941
-
- betatron, maximal energy
IWANENKO 1944
-
- Cockcroft-Walton
COCKCROFT 1932
-
- colliding beams
KERST 1956
-
- cyclotron
LAWRENCE 1931
LAWRENCE 1931B
LAWRENCE 1932
-
- cyclotron, medical application
LAWRENCE 1939
-
- electron cooling
BUDKER 1967
BUDKER 1976
-
- electrostatic, invention
VAN DE GRAAFF 1931
VAN DE GRAAFF 1933
-
- first pion production
BURFENING 1949
-
- linear, Stanford
CHODOROW 1955
-
- neutrino beams
PONTECORVO 1959
SCHWARTZ 1960
-
- phase stability
MCMILLAN 1945
VEKSLER 1944
-
- phase stability principle
BROBECK 1947
-
- radiation self-polarization
SOKOLOV 1963
TERNOV 1961
-
- radiation self-polarization of beam
SEREDNYAKOV 1976
-
- storage rings
BUDKER 1967
-
- strong focusing
AGS STAFF 1961
COURANT 1952
-
- synchrotron
MCMILLAN 1946
-
- synchrotron, invention
MCMILLAN 1945
-
- van de Graaff
VAN DE GRAAFF 1931
VAN DE GRAAFF 1933
aces (quarks), introduction
ZWEIG 1964
ZWEIG 1964B
adiabatic principle, quantum mechanics
BORN 1926D
decay, quantum theory
GAMOW 1928
particles
-
-
- collision
CHADWICK 1921
RUTHERFORD 1919
-
- scattering
RUTHERFORD 1911
radioactivity
-
-
- evidence
RUTHERFORD 1899
rays
-
-
- doubly positive charged
RUTHERFORD 1903
-
- scattering
BOHR 1913
- annihilation
-
-
- e+ e three-jet
BARTEL 1980D
BERGER 1979C
BRANDELIK 1979H
-
- e+ e to three jets
BARBER 1979F
-
- antiproton, first evidence
CHAMBERLAIN 1956E
-
- antiproton, first indication
HILL 1956
-
- antiproton, pion-pion correlations
GOLDHABER 1959
-
- antiproton-nucleon
BARKAS 1957
CHAMBERLAIN 1956F
- anomalous magnetic moment
-
-
- electron, calculation
SCHWINGER 1948B
-
- electron, first measurement
FOLEY 1948
KUSCH 1947
-
- neutron, prediction
ALTSHULER 1934
antideuteron production, confirmation
BINON 1969
antideuterons, first evidence
DORFAN 1965D
antimatter production
BINON 1969
- antimatter
-
-
- prediction
DIRAC 1931
antineutrino, neutrino comparison
DAVIES 1955B
- antineutron
-
-
- confirmation
AGNEW 1958
-
- first evidence
CORK 1956
- antiparticle
-
-
- discovery
ANDERSON 1933
-
- prediction
DIRAC 1931
- antiproton
-
-
- annihilation, first evidence
CHAMBERLAIN 1956E
-
- annihilation, first indication
HILL 1956
-
- annihilation, pion-pion correlations
GOLDHABER 1959
-
- confirmation
BRABANT 1956C
-
- evidence
CHAMBERLAIN 1955
-
- prediction
DIRAC 1931
antiproton-nucleon annihilation
BARKAS 1957
CHAMBERLAIN 1956F
- associative production
-
-
- V particles, evidence
FOWLER 1953B
FOWLER 1954C
-
- V particles, explanation
GELL-MANN 1953
-
- V0 particles, hypothesis
PAIS 1952
-
- strange particles
WALKER 1955D
-
- strange particles, confirmation
SORRELS 1955
asymptotic freedom
GROSS 1973
GROSS 1973B
POLITZER 1973
atomic energy
FERMI 1943
- atomic model
-
-
- Bohr
BOHR 1913
BOHR 1913B
BOHR 1918
-
- Rutherford
RUTHERFORD 1911
RUTHERFORD 1913
- atomic nucleus
-
-
- confirmation
RUTHERFORD 1913
-
- evaluation of charge
RUTHERFORD 1911
RUTHERFORD 1913
-
- evidence
RUTHERFORD 1911
-
- hypothesis
RUTHERFORD 1911
-
- structure, neutron
IWANENKO 1932
-
- structure, protons and neutrons, suggestion
HEISENBERG 1932
atomic number, nuclear charge, relation
RUTHERFORD 1920
- atomic spectrum
-
-
-
SCHRÖDINGER 1926D
SCHRÖDINGER 1926E
-
- quantum theory
BOHR 1913
BOHR 1913B
BOHR 1918
-
- quantum theory, invention
BOHR 1913B
- atomic structure
-
-
- Bohr's atom
BOHR 1913
BOHR 1913B
-
- Pauli exclusion principle
PAULI 1925
PAULI 1925B
-
- Rutherford's atom
RUTHERFORD 1911
RUTHERFORD 1913
- Avogadro constant
-
-
- precise measurement
MILLIKAN 1913
- axiomatic quantum field theory
-
-
- S-matrix, beginnings
LEHMANN 1955
-
- Bogolyubov approach
BOGOLYUBOV 1956B
-
- Wightman approach
WIGHTMAN 1956
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