${{\boldsymbol n}}$ MAGNETIC MOMENT INSPIRE search

See the ``Note on Baryon Magnetic Moments'' in the ${{\mathit \Lambda}}$ Listings.
VALUE ($\mu _{\mathit N}$) DOCUMENT ID TECN  COMMENT
$-1.91304273$ $\pm0.00000045$
MOHR
2016
RVUE 2014 CODATA value
• • • We do not use the following data for averages, fits, limits, etc. • • •
$-1.91304272$ $\pm0.00000045$
MOHR
2012
RVUE 2010 CODATA value
$-1.91304273$ $\pm0.00000045$
MOHR
2008
RVUE 2006 CODATA value
$-1.91304273$ $\pm0.00000045$
MOHR
2005
RVUE 2002 CODATA value
$-1.91304272$ $\pm0.00000045$
MOHR
1999
RVUE 1998 CODATA value
$-1.91304275$ $\pm0.00000045$
COHEN
1987
RVUE 1986 CODATA value
$-1.91304277$ $\pm0.00000048$ 1
GREENE
1982
MRS
1  GREENE 1982 measures the moment to be $0.00104187564$ $\pm0.00000000026$ Bohr magnetons. The value above is obtained by multiplying this by ${\mathit m}_{{{\mathit p}}}/{\mathit m}_{{{\mathit e}}}$ = $1836.152701$ $\pm0.000037$ (the 1986 CODATA value from COHEN 1987 ).
  References:
MOHR 2016
RMP 88 035009 CODATA Recommended Values of the Fundamental Physical Constants: 2014
MOHR 2012
RMP 84 1527 CODATA Recommended Values of the Fundamental Physical Constants: 2010
MOHR 2008
RMP 80 633 CODATA Recomended Values of the Fundamental Physical Constants: 2006
MOHR 2005
RMP 77 1 NIST Constants
MOHR 1999
JPCRD 28 1713 CODATA Recommended Values of the Fundamental Physical Constants: 1998;
COHEN 1987
RMP 59 1121 CODATA Fundamental Physical Constants 1986 Adjustments
GREENE 1982
Metrologia 18 93 An Improved Derived Value for the Neutron Magnetic Moment in Nuclear Magnetons