A study of $$C\!P$$ C P violation in the decays $${{B} ^\pm } \rightarrow [{{K} ^+} {{K} ^-} {{\uppi } ^+} {{\uppi } ^-} ]_{D} h^{\pm }$$ B ± → [ K + K - π + π - ] D h ± ( $$h = K, \pi $$ h = K , π ) and $${{B} ^\pm } \rightarrow [{{\uppi } ^+} {{\uppi } ^-} {{\uppi } ^+} {{\uppi } ^-} ]_{D} h^{\pm }$$ B ± → [ π + π - π + π - ] D h ±
Download10052_2023_Article_11560.pdf (2.237Mb)
Publisher with Creative Commons License
Publisher with Creative Commons License
Creative Commons Attribution
Terms of use
Metadata
Show full item recordAbstract
Abstract
The first study of
$$C\!P$$
C
P
violation in the decay mode
$${{B} ^\pm } \rightarrow [{{K} ^+} {{K} ^-} {{\uppi } ^+} {{\uppi } ^-} ]_{D} h^\pm $$
B
±
→
[
K
+
K
-
π
+
π
-
]
D
h
±
, with
$$h=K,\pi $$
h
=
K
,
π
, is presented, exploiting a data sample of proton–proton collisions collected by the LHCb experiment that corresponds to an integrated luminosity of
$$9\text {\,fb} ^{-1} $$
9
\,fb
-
1
. The analysis is performed in bins of phase space, which are optimised for sensitivity to local
$$C\!P$$
C
P
asymmetries.
$$C\!P$$
C
P
-violating observables that are sensitive to the angle
$$\gamma $$
γ
of the Unitarity Triangle are determined. The analysis requires external information on charm-decay parameters, which are currently taken from an amplitude analysis of LHCb data, but can be updated in the future when direct measurements become available. Measurements are also performed of phase-space integrated observables for
$${{B} ^\pm } \rightarrow [{{K} ^+} {{K} ^-} {{\uppi } ^+} {{\uppi } ^-} ]_{D} h^\pm $$
B
±
→
[
K
+
K
-
π
+
π
-
]
D
h
±
and
$${{B} ^\pm } \rightarrow [{{\uppi } ^+} {{\uppi } ^-} {{\uppi } ^+} {{\uppi } ^-} ]_{D} h^\pm $$
B
±
→
[
π
+
π
-
π
+
π
-
]
D
h
±
decays.
Date issued
2023-06-29Department
Massachusetts Institute of Technology. Department of PhysicsPublisher
Springer Berlin Heidelberg
Citation
The European Physical Journal C. 2023 Jun 29;83(6):547
Version: Final published version