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$\vert \mathit q_{{{\mathit e}^{+}}}~+~\mathit q_{{{\mathit e}^{-}}}\vert /{{\mathit e}}$
$\vert \mathit q_{{{\mathit e}^{+}}}~+~\mathit q_{{{\mathit e}^{-}}}\vert /{{\mathit e}}$
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A test of $\mathit CPT$ invariance. See also similar tests involving the proton.
S003DQ
VALUE
DOCUMENT ID
TECN
COMMENT
$\bf{<4 \times 10^{-8}}$
1
HUGHES
1992
RVUE
• • • We do not use the following data for averages, fits, limits, etc. • • •
$<2 \times 10^{-18}$
2
SCHAEFER
1995
THEO
Vacuum polarization
$<1 \times 10^{-18}$
3
MUELLER
1992
THEO
Vacuum polarization
1
HUGHES 1992
uses recent measurements of Rydberg-energy and cyclotron-frequency ratios.
2
SCHAEFER 1995
removes model dependency of
MUELLER 1992
.
3
MUELLER 1992
argues that an inequality of the charge magnitudes would, through higher-order vacuum polarization, contribute to the net charge of atoms.
Conservation Laws:
$\mathit CPT$ INVARIANCE
References:
SCHAEFER
1995
PR A51 838
Vacuum Polarization as a Test of $\mathit C$ and $\mathit CPT$ Invariance
HUGHES
1992
PRL 69 578
Electric Charges of Positrons and Antiprotons
MUELLER
1992
PRL 69 3432
Vacuum Polarization and the Electric Charge of the Positron
