elementary particlesElementaryParticles32009-03-08 01:59:262009-03-08 01:59:26Topicnucleonsneutronsneutrinos and positronselementary particleselectronsneutronsneutrinos and positronsThis is acontributed topic on elementary particles and their interactions.
\subsection{Brief History}
Elementary particle physics is about a century old as it began with J. J. Thomson's discovery of the electron in 1897; the electron `remains' an elementary particle, whereas a few other particle were found to be composites of other, `elementary' particles as in the case of nucleons (proton and neutron), for example. Neutrons, neutrinos and positrons came about 1930 though it took many more years to prove the existence of neutrinos.
Quantum field theory-- the `merging' of Lorentz invariance and quantum mechanics-- allows an adequate description of elementary particles and their interactions, although quantum chromodynamics (QCD) still falls short of
many nyclear physicists' expectations.
The physicists who contributed in an essential way early in the last century to the discovery of three elementary particles : the electron $e$, the photon $\gamma$ and the proton $p$ were: J.J. Thomson, E. Rutherford, M. Planck, A. Einstein, Chadwick and W. Mosley; the proton however has lost its `elementary' status some 40 years ago. Furthermore, Heisenberg in his last published book
argued against the use of the term `elementary' for any particle, but few have followed his suggestion in either the high-energy or the quantum theoretical physics camp.
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