$\mathit CP$ VIOLATION PARAMETERS

$\mathit C_{ {{\mathit f}_{{0}}{(980)}} {{\mathit K}_S^0} }$ ( ${{\mathit B}^{0}}$ $\rightarrow$ ${{\mathit f}_{{0}}{(980)}}{{\mathit K}_S^0}$ )

INSPIRE   PDGID:
S042CF1
VALUE DOCUMENT ID TECN  COMMENT
$\bf{ 0.29 \pm0.20}$ OUR AVERAGE
$0.28$ $\pm0.24$ $\pm0.09$ 1
LEES
2012O
 BABR ${{\mathit e}^{+}}$ ${{\mathit e}^{-}}$ $\rightarrow$ ${{\mathit \Upsilon}{(4S)}}$
$0.30$ $\pm0.29$ $\pm0.14$ 2, 3
NAKAHAMA
2010
BELL ${{\mathit e}^{+}}$ ${{\mathit e}^{-}}$ $\rightarrow$ ${{\mathit \Upsilon}{(4S)}}$
• • We do not use the following data for averages, fits, limits, etc. • •
$0.08$ $\pm0.19$ $\pm0.05$ 4
AUBERT
2009AU
 BABR Repl. by LEES 2012O
$0.06$ $\pm0.17$ $\pm0.11$ 2, 5
DALSENO
2009
BELL Repl. by NAKAHAMA 2010
$-0.41$ $\pm0.23$ $\pm0.07$ 2
AUBERT
2007AX
 BABR Repl. by AUBERT 2009AU
$0.15$ $\pm0.15$ $\pm0.07$ 2
CHAO
2007
BELL Repl. by DALSENO 2009
$0.39$ $\pm0.27$ $\pm0.09$ 2
CHEN
2005B
 BELL Repl. by CHAO 2007
1  Uses Dalitz plot analysis of the ${{\mathit B}^{0}}$ $\rightarrow$ ${{\mathit K}_S^0}$ ${{\mathit K}^{+}}{{\mathit K}^{-}}$ decay.
2  Quotes $\mathit A_{ {{\mathit f}_{{0}}{(980)}} {{\mathit K}_S^0} }$ which is equal to $−\mathit C_{ {{\mathit f}_{{0}}{(980)}} {{\mathit K}_S^0} }$.
3  Uses Dalitz plot analysis of ${{\mathit B}^{0}}$ $\rightarrow$ ${{\mathit K}_S^0}$ ${{\mathit K}^{+}}{{\mathit K}^{-}}$ decays and the first of four consistent solutions that may be preferred.
4  Uses Dalitz plot analysis of ${{\mathit B}^{0}}$ $\rightarrow$ ${{\mathit K}^{0}}{{\mathit \pi}^{+}}{{\mathit \pi}^{-}}$ decays and the first of two equivalent solutions is used.
5  Uses Dalitz plot analysis of ${{\mathit B}^{0}}$ $\rightarrow$ ${{\mathit K}^{0}}{{\mathit \pi}^{+}}{{\mathit \pi}^{-}}$ decays and the first of two consistent solutions that may be preferred.
Conservation Laws:
$\mathit CP$ INVARIANCE
References:
LEES 2012O
PR D85 112010 Study of $\mathit CP$ Violation in Dalitz-Plot Analyses of ${{\mathit B}^{0}}$ $\rightarrow$ ${{\mathit K}^{+}}{{\mathit K}^{-}}{{\mathit K}_S^0}$ , ${{\mathit B}^{+}}$ $\rightarrow$ ${{\mathit K}^{+}}{{\mathit K}^{-}}{{\mathit K}^{+}}$ , and ${{\mathit B}^{+}}$ $\rightarrow$ ${{\mathit K}_S^0}$ ${{\mathit K}_S^0}$ ${{\mathit K}^{+}}$
NAKAHAMA 2010
PR D82 073011 Measurement of $\mathit CP$ Violating Asymmetries in ${{\mathit B}^{0}}$ $\rightarrow$ ${{\mathit K}^{+}}{{\mathit K}^{-}}{{\mathit K}_S^0}$ Decays with a Time-Dependent Dalitz Approach
AUBERT 2009AU
PR D80 112001 Time-Dependent Amplitude Analysis of ${{\mathit B}^{0}}$ $\rightarrow$ ${{\mathit K}_S^0}$ ${{\mathit \pi}^{+}}{{\mathit \pi}^{-}}$
DALSENO 2009
PR D79 072004 Time-Dependent Dalitz Plot Measurement of $\mathit CP$ Parameters in ${{\mathit B}^{0}}$ $\rightarrow$ ${{\mathit K}_S^0}$ ${{\mathit \pi}^{+}}{{\mathit \pi}^{-}}$ Decays
AUBERT 2007AX
PRL 99 161802 Measurements of $\mathit CP$-Violating Asymmetries in the Decay ${{\mathit B}^{0}}$ $\rightarrow$ ${{\mathit K}^{+}}{{\mathit K}^{-}}{{\mathit K}^{0}}$
CHAO 2007
PR D76 091103 Measurements of Time-Dependent $\mathit CP$ Violation in ${{\mathit B}^{0}}$ $\rightarrow$ ${{\mathit \omega}}{{\mathit K}_S^0}$ , ${{\mathit f}_{{0}}{(980)}}{{\mathit K}_S^0}$ , ${{\mathit K}_S^0}$ ${{\mathit \pi}^{0}}$ and ${{\mathit K}^{+}}{{\mathit K}^{-}}{{\mathit K}_S^0}$ Decays
CHEN 2005B
PR D72 012004 Time-Dependent $\mathit CP$-Violating Asymmetries in ${\mathit {\mathit b}}$ $\rightarrow$ ${\mathit {\mathit s}}$ ${\mathit {\overline{\mathit q}}}$ ${\mathit {\mathit q}}$ Transitions