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$\mathbf {{{\mathit f}_{{0}}{(2060)}}}$ $\mathit I\mathit G(\mathit J{}^{PC}) = 0{}^{+}(0{}^{++})$
$\mathbf {{{\boldsymbol f}_{{0}}{(2060)}}}$ $\boldsymbol I\boldsymbol G(\boldsymbol J{}^{PC}) = 0{}^{+}(0{}^{++})$
INSPIRE search
MASS ${\mathrm {(MeV)}}$
WIDTH ${\mathrm {(MeV)}}$
DOCUMENT ID
TECN
COMMENT
$ \sim2050 $
~120
1
OAKDEN
1994
RVUE
$0.36 - 1.55$ ${{\overline{\mathit p}}}$ ${{\mathit p}}$ $\rightarrow$ ${{\mathit \pi}}{{\mathit \pi}}$
$ \sim2060 $
~ 50
1
OAKDEN
1994
RVUE
$0.36 - 1.55$ ${{\overline{\mathit p}}}$ ${{\mathit p}}$ $\rightarrow$ ${{\mathit \pi}}{{\mathit \pi}}$
1
See
SEMENOV 1999
and
KLOET 1996
.
References:
OAKDEN
1994
NP A574 731
Amplitude Analysis of Data on ${{\overline{\mathit p}}}$ ${{\mathit p}}$ $\rightarrow$ ${{\mathit \pi}}{{\mathit \pi}}$ at Low Energy
