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The $m(\Kp\Km\mumu)$ distribution for \BsToPhimm candidates integrated over the $0.1 < \qsq <0.98\gevgevcccc$, $1.1 < \qsq <8\gevgevcccc$, $11.0 < \qsq < 12.5\gevgevcccc$ and \mbox{$15.0 < \qsq <18.9\gevgevcccc$} regions for the data-taking periods 2011-2012 (top left), 2016 (top right), and 2017--2018 (bottom). The data are overlaid with the PDF used to describe the $m(\Kp\Km\mumu)$ spectrum, fitted separately for each data set.

The $m(\Kp\Km\mumu)$ distribution for \BsToPhimm candidates integrated over the $0.1 < \qsq <0.98\gevgevcccc$, $1.1 < \qsq <8\gevgevcccc$, $11.0 < \qsq < 12.5\gevgevcccc$ and \mbox{$15.0 < \qsq <18.9\gevgevcccc$} regions for the data-taking periods 2011-2012 (top left), 2016 (top right), and 2017--2018 (bottom). The data are overlaid with the PDF used to describe the $m(\Kp\Km\mumu)$ spectrum, fitted separately for each data set.

The $m(\Kp\Km\mumu)$ distribution for \BsToPhimm candidates integrated over the $0.1 < \qsq <0.98\gevgevcccc$, $1.1 < \qsq <8\gevgevcccc$, $11.0 < \qsq < 12.5\gevgevcccc$ and \mbox{$15.0 < \qsq <18.9\gevgevcccc$} regions for the data-taking periods 2011-2012 (top left), 2016 (top right), and 2017--2018 (bottom). The data are overlaid with the PDF used to describe the $m(\Kp\Km\mumu)$ spectrum, fitted separately for each data set.

Angular projections in the region $1.1 < \qsq <6.0\gevgevcccc$ for the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Angular projections in the region $1.1 < \qsq <6.0\gevgevcccc$ for the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Angular projections in the region $1.1 < \qsq <6.0\gevgevcccc$ for the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Angular projections in the region $1.1 < \qsq <6.0\gevgevcccc$ for the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Angular projections in the region $1.1 < \qsq <6.0\gevgevcccc$ for the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Angular projections in the region $1.1 < \qsq <6.0\gevgevcccc$ for the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

\CP-averaged angular observables \FL and $S_{3,4,7}$ and \CP-asymmetries \AFBCP and $A_{5,8,9}$ shown by black crosses, overlaid with the SM prediction~\cite{Straub:2015ica,Straub:2018kue,Horgan:2013pva,Horgan:2015vla} as blue boxes, where available. The grey crosses indicate the results from Ref.~\cite{LHCb-PAPER-2015-023}. The grey bands indicate the regions of the charmonium resonances and the \decay{\Bs}{\phi\phi} region.

\CP-averaged angular observables \FL and $S_{3,4,7}$ and \CP-asymmetries \AFBCP and $A_{5,8,9}$ shown by black crosses, overlaid with the SM prediction~\cite{Straub:2015ica,Straub:2018kue,Horgan:2013pva,Horgan:2015vla} as blue boxes, where available. The grey crosses indicate the results from Ref.~\cite{LHCb-PAPER-2015-023}. The grey bands indicate the regions of the charmonium resonances and the \decay{\Bs}{\phi\phi} region.

\CP-averaged angular observables \FL and $S_{3,4,7}$ and \CP-asymmetries \AFBCP and $A_{5,8,9}$ shown by black crosses, overlaid with the SM prediction~\cite{Straub:2015ica,Straub:2018kue,Horgan:2013pva,Horgan:2015vla} as blue boxes, where available. The grey crosses indicate the results from Ref.~\cite{LHCb-PAPER-2015-023}. The grey bands indicate the regions of the charmonium resonances and the \decay{\Bs}{\phi\phi} region.

\CP-averaged angular observables \FL and $S_{3,4,7}$ and \CP-asymmetries \AFBCP and $A_{5,8,9}$ shown by black crosses, overlaid with the SM prediction~\cite{Straub:2015ica,Straub:2018kue,Horgan:2013pva,Horgan:2015vla} as blue boxes, where available. The grey crosses indicate the results from Ref.~\cite{LHCb-PAPER-2015-023}. The grey bands indicate the regions of the charmonium resonances and the \decay{\Bs}{\phi\phi} region.

\CP-averaged angular observables \FL and $S_{3,4,7}$ and \CP-asymmetries \AFBCP and $A_{5,8,9}$ shown by black crosses, overlaid with the SM prediction~\cite{Straub:2015ica,Straub:2018kue,Horgan:2013pva,Horgan:2015vla} as blue boxes, where available. The grey crosses indicate the results from Ref.~\cite{LHCb-PAPER-2015-023}. The grey bands indicate the regions of the charmonium resonances and the \decay{\Bs}{\phi\phi} region.

\CP-averaged angular observables \FL and $S_{3,4,7}$ and \CP-asymmetries \AFBCP and $A_{5,8,9}$ shown by black crosses, overlaid with the SM prediction~\cite{Straub:2015ica,Straub:2018kue,Horgan:2013pva,Horgan:2015vla} as blue boxes, where available. The grey crosses indicate the results from Ref.~\cite{LHCb-PAPER-2015-023}. The grey bands indicate the regions of the charmonium resonances and the \decay{\Bs}{\phi\phi} region.

\CP-averaged angular observables \FL and $S_{3,4,7}$ and \CP-asymmetries \AFBCP and $A_{5,8,9}$ shown by black crosses, overlaid with the SM prediction~\cite{Straub:2015ica,Straub:2018kue,Horgan:2013pva,Horgan:2015vla} as blue boxes, where available. The grey crosses indicate the results from Ref.~\cite{LHCb-PAPER-2015-023}. The grey bands indicate the regions of the charmonium resonances and the \decay{\Bs}{\phi\phi} region.

\CP-averaged angular observables \FL and $S_{3,4,7}$ and \CP-asymmetries \AFBCP and $A_{5,8,9}$ shown by black crosses, overlaid with the SM prediction~\cite{Straub:2015ica,Straub:2018kue,Horgan:2013pva,Horgan:2015vla} as blue boxes, where available. The grey crosses indicate the results from Ref.~\cite{LHCb-PAPER-2015-023}. The grey bands indicate the regions of the charmonium resonances and the \decay{\Bs}{\phi\phi} region.

Mass distributions of \BsToPhimm\ candidates in the different \qsq\ regions for the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF.

Mass distributions of \BsToPhimm\ candidates in the different \qsq\ regions for the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF.

Mass distributions of \BsToPhimm\ candidates in the different \qsq\ regions for the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF.

Mass distributions of \BsToPhimm\ candidates in the different \qsq\ regions for the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF.

Mass distributions of \BsToPhimm\ candidates in the different \qsq\ regions for the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF.

Mass distributions of \BsToPhimm\ candidates in the different \qsq\ regions for the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF.

Mass distributions of \BsToPhimm\ candidates in the different \qsq\ regions for the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF.

Projections in the region \mbox{$0.1 < \qsq <0.98\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$0.1 < \qsq <0.98\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$0.1 < \qsq <0.98\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$0.1 < \qsq <0.98\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$0.1 < \qsq <0.98\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$0.1 < \qsq <0.98\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$1.1 < \qsq <4.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data set. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$1.1 < \qsq <4.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data set. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$1.1 < \qsq <4.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data set. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$1.1 < \qsq <4.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data set. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$1.1 < \qsq <4.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data set. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$1.1 < \qsq <4.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data set. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$4.0 < \qsq <6.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$4.0 < \qsq <6.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$4.0 < \qsq <6.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$4.0 < \qsq <6.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$4.0 < \qsq <6.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$4.0 < \qsq <6.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$6.0 < \qsq <8.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$6.0 < \qsq <8.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$6.0 < \qsq <8.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$6.0 < \qsq <8.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$6.0 < \qsq <8.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$6.0 < \qsq <8.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$11.0 < \qsq <12.5\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$11.0 < \qsq <12.5\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$11.0 < \qsq <12.5\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$11.0 < \qsq <12.5\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$11.0 < \qsq <12.5\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$11.0 < \qsq <12.5\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$1.1 < \qsq <6.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$1.1 < \qsq <6.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$1.1 < \qsq <6.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$1.1 < \qsq <6.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$1.1 < \qsq <6.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$1.1 < \qsq <6.0\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$15.0 < \qsq <18.9\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$15.0 < \qsq <18.9\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$15.0 < \qsq <18.9\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$15.0 < \qsq <18.9\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$15.0 < \qsq <18.9\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Projections in the region \mbox{$15.0 < \qsq <18.9\gevgevcccc$} for the angular distributions of the combined 2011--2012, 2016 and 2017--2018 data sets. The data are overlaid with the projection of the combined PDF. The red shaded area indicates the background component and the solid black line the total PDF. The angular projections are given for candidates in (left) the entire mass region used to determine the observables in this paper and (right) the signal mass window $\pm50\mevcc$ around the known \Bs mass.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$0.1<\qsq<0.98\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$0.1<\qsq<0.98\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$0.1<\qsq<0.98\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$0.1<\qsq<0.98\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$0.1<\qsq<0.98\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$0.1<\qsq<0.98\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$0.1<\qsq<0.98\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$0.1<\qsq<0.98\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$0.1<\qsq<0.98\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$0.1<\qsq<0.98\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$0.1<\qsq<0.98\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$0.1<\qsq<0.98\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<4.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<4.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<4.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<4.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<4.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<4.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<4.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<4.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<4.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<4.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<4.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<4.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$4.0<\qsq<6.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$4.0<\qsq<6.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$4.0<\qsq<6.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$4.0<\qsq<6.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$4.0<\qsq<6.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$4.0<\qsq<6.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$4.0<\qsq<6.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$4.0<\qsq<6.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$4.0<\qsq<6.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$4.0<\qsq<6.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$4.0<\qsq<6.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$4.0<\qsq<6.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$6.0<\qsq<8.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$6.0<\qsq<8.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$6.0<\qsq<8.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$6.0<\qsq<8.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$6.0<\qsq<8.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$6.0<\qsq<8.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$6.0<\qsq<8.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$6.0<\qsq<8.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$6.0<\qsq<8.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$6.0<\qsq<8.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$6.0<\qsq<8.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$6.0<\qsq<8.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$11.0<\qsq<12.5\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$11.0<\qsq<12.5\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$11.0<\qsq<12.5\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$11.0<\qsq<12.5\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$11.0<\qsq<12.5\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$11.0<\qsq<12.5\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$11.0<\qsq<12.5\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$11.0<\qsq<12.5\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$11.0<\qsq<12.5\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$11.0<\qsq<12.5\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$11.0<\qsq<12.5\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$11.0<\qsq<12.5\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<6.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<6.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<6.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<6.0\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<6.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<6.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<6.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<6.0\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<6.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<6.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<6.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$1.1<\qsq<6.0\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$15.0<\qsq<18.9\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$15.0<\qsq<18.9\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$15.0<\qsq<18.9\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$15.0<\qsq<18.9\gevgevcccc$} for data taken in 2011--2012. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$15.0<\qsq<18.9\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$15.0<\qsq<18.9\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$15.0<\qsq<18.9\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$15.0<\qsq<18.9\gevgevcccc$} for data taken in 2016. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$15.0<\qsq<18.9\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$15.0<\qsq<18.9\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$15.0<\qsq<18.9\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.

Mass and angular distributions of \BsToPhimm\ candidates in the region \mbox{$15.0<\qsq<18.9\gevgevcccc$} for data taken in 2017--2018. The data are overlaid with the projections of the fitted PDF.