| 1911 |
Ernest
Rutherford* publishes his famous paper The
scattering of alpha and beta particles by matter
and the structure of atoms, in which
measurements made by among others Hans Geiger and
Ernest Marsden in 1909 were analysed. Rutherford
explains the results of such measurements by the
atom having all its mass concentrated to a
nucleus of less than 10-14 m. This
discovery marks the birth of nuclear
physics. |
| 1919 |
Ernest Rutherford demonstrates free
protons by bombarding nitrogen with alpha
particles. He concludes that nuclei have an inner
structure. |
| 1932 |
James
Chadwick* discovers the neutron and Werner
Heisenberg* proposes that the nucleus
consists of protons and neutrons, together termed
nucleons. |
| 1933-1934 |
Otto
Stern* and his co-workers discovers that the
proton and the neutron have unexpectedly large
(anomalous) magnetic moments. This is interpreted
to mean that nucleons are not point-like, but
occupy a certain volume, and can thus possess an
inner structure. |
| 1935 |
A first model of how nucleons can
form stable nuclei (strong interaction) is
presented by Hideki
Yukawa*. |
| 1950s |
It is discovered that the nucleon
(like the atom and the nucleus) can be excited to
higher energy levels. A large number of new
particles, hadrons, related to the nucleon, are
discovered. Robert Hofstadter* and his co-workers
study the structure of protons and neutrons at
the electron accelerator at Stanford. Using
electron energies of up to 1 GeV (1 GeV is
109 eV) they measure how charge and
magnetism are distributed within the nucleons. It
is found that the distributions give a picture of
the nucleons as "soft spheres". |
| 1964 |
Murray
Gell-Mann* and Georg Zweig propose a model
for the hadrons which, among other things, can
theoretically describe the magnetic properties of
the nucleon. The model requires three new
elementary particles, which Gell-Mann calls
quarks. But it is by no means clear that
the quarks are true particles – they are
perhaps only theoretical tools without
experimental reality. Be that as it may, no free
quarks are discovered. |
| 1967 |
The SLAC-MIT experiment starts at
the new electron accelerator in Stanford.
Jerome
I. Friedman*, Henry W.
Kendall*, Richard E.
Taylor* and their co-workers obtain in 1968
the first indications that the nucleons have an
inner structure with point-like scattering
centres. These are later interpreted as being
quarks. |
| Since 1968 |
Intensive research into the inner
structure of the nucleons starts all over the
world, and is still continuing. |
| |
* Nobel Laureates |
Printer Friendly 
Comments & Questions
Tell a Friend 
