| Atomic Number: |
102 |
| Atomic Symbol: |
No |
| Atomic Weight: |
259 |
| Electron Configuration: |
[Rn]7s25f14 |
Nobelium
is a radioactive "rare earth metal" named after
Alfred Nobel who discovered dynamite. Nobelium was unambiguiously
discovered and identified in April 1958 at Berkeley by
A. Ghiorso,T. Sikkeland, J.R. Walton, and G.T. Seaborg,
who used a new double-recoil technique. A heavy-ion linear
accelerator (HILAC) was used to bombard a thin target
of curium (95% 244Cm and 4.5% 246Cm) with 12C ions to
produce 102No according to the 246Cm(12C, 4n) reaction.
In
1957 workers in the United States, Britain, and Sweden
announced the discovery of an isotope of element 102 with
a 10-minute half-life at 8.5 MeV, as a result of bombarding
244Cm with 13C nuclei. On the basis of this experiment,
the name nobelium was assigned and accepted by the Commission
on Atomic Weights of the International Union of Pure and
Applied Chemistry.
The
acceptance of the name was premature because both Russian
and American efforts now completely rule out the possibility
of any isotope of Element 102 having a half-life of 10
min in the vicinity of 8.5 MeV. Early work in 1957 on
the search for this element, in Russia at the Kurchatov
Institute, was marred by the assignment of 8.9 +/- 0.4
MeV alpha radiation with a half-life of 2 to 40 sec, which
was too indefinite to support discovery claims.
Confirmatory
experiments at Berkeley in 1966 have shown the existence
of 254-102 with a 55-s half-life, 252-102 with a 2.3-s
half-life, and 257-102 with a 23-s half-life.
Following
tradition giving the right to name an element to the discoverer(s),
the Berkeley group in 1967, suggested that the hastily
given name nobelium along with the symbol No , be retained.
Isotopes
Ten
isotopes are now recognized, one of which -- 255-102 --
has a half-life of 3 minutes.
