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Review papers:
Discovery of the W bosons (UA1/UA2):
Discovery of the Z boson (UA1/UA2):
Precise measurement of the W mass by UA1:
Precise measurement of the W mass by UA2 (First with an accuracy of 1GeV):
Tevatron Run I (1991-1995) results on the W mass with a precision of 100MeV:
Pawel Nadolsky, RhicBos, predictions for STAR
Papers about ubar/dbar x-section
Computation of AL from RHICBOS - Bernd



Unknown macro: {latex}

~

L0 interpretation of parity violating $A_L$ for Ws

1) definition of sign of $A_L$:
\begin

Unknown macro: {equation}

A_L=\frac

Unknown macro: {dsigma^+ - dsigma^-}
Unknown macro: {dsigma^+ + dsigma^-}

\end


Explore limits at $y=0, x_a=x_b=x$
\begin

Unknown macro: {equation}

A^

Unknown macro: {W+}

_L=\frac{u\Delta\bar

Unknown macro: {d}

- \bar

\Delta u}{2u\bar

Unknown macro: {d}

}; \;\;\;
A^

Unknown macro: {W-}

_L=\frac{d\Delta\bar

Unknown macro: {u}

- \bar

\Delta d}{2d\bar

Unknown macro: {u}

}
\end

from this follows:
\begin

Unknown macro: {equation}

A^

Unknown macro: {W+}

_L=\frac

Unknown macro: {1}
Unknown macro: {2}

(\frac{\Delta\bar{d}}{\bar{d}} - \frac

Unknown macro: {Delta u }
Unknown macro: {u}

); \;\;\; A^

_L<0 \;\; for \;\;\Delta u>0
\end

and:
\begin

Unknown macro: {equation}

A^

Unknown macro: {W-}

_L=\frac

Unknown macro: {1}
Unknown macro: {2}

(\frac{\Delta\bar{u}}{\bar{u}} - \frac

Unknown macro: {Delta d }
Unknown macro: {d}

); \;\;\; A^

_L>0 \;\; for \;\;\Delta d<0
\end

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