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Study of Two-Body e^+e^- to B_s^((*))bar{B}_s^((*)) Production in the Energy Range from 10.77 to 11.02 GeV

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arxiv 1609.08749 v1 pith:PM2BH4J2 submitted 2016-09-28 hep-ex

Study of Two-Body e^+e^- to B_s^((*))bar{B}_s^((*)) Production in the Energy Range from 10.77 to 11.02 GeV

A.Abdesselam , I.Adachi , K.Adamczyk , H.Aihara , S.Al Said , K.Arinstein , Y.Arita , D.M.Asner
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T.Aso H.Atmacan V.Aulchenko T.Aushev R.Ayad T.Aziz V.Babu I.Badhrees S.Bahinipati A.M.Bakich A.Bala Y.Ban V.Bansal E.Barberio M.Barrett W.Bartel A.Bay I.Bedny P.Behera M.Belhorn K.Belous M.Berger D.Besson V.Bhardwaj B.Bhuyan J.Biswal T.Bloomfield S.Blyth A.Bobrov A.Bondar G.Bonvicini C.Bookwalter C.Boulahouache A.Bozek M.Bracko F.Breibeck J.Brodzicka T.E.Browder E.Waheed D.Cervenkov M.-C.Chang P.Chang Y.Chao V.Chekelian A.Chen K.-F.Chen P.Chen B.G.Cheon K.Chilikin R.Chistov K.Cho V.Chobanova S.-K.Choi Y.Choi D.Cinabro J.Crnkovic J.Dalseno M.Danilov N.Dash S.DiCarlo J.Dingfelder Z.Dolezal D.Dossett Z.Drasal A.Drutskoy S.Dubey D.Dutta K.Dutta S.Eidelman D.Epifanov S.Esen H.Farhat J.E.Fast M.Feindt T.Ferber A.Frey O.Frost B.G.Fulsom V.Gaur N.Gabyshev S.Ganguly A.Garmash D.Getzkow R.Gillard F.Giordano R.Glattauer Y.M.Goh P.Goldenzweig B.Golob D.Greenwald M.Grosse Perdekamp J.Grygier O.Grzymkowska H.Guo J.Haba P.Hamer Y.L.Han K.Hara T.Hara Y.Hasegawa J.Hasenbusch K.Hayasaka H.Hayashii X.H.He M.Heck M.T.Hedges D.Heffernan M.Heider A.Heller T.Higuchi S.Himori S.Hirose T.Horiguchi Y.Hoshi K.Hoshina W.-S.Hou Y.B.Hsiung C.-L.Hsu M.Huschle H.J.Hyun Y.Igarashi T.Iijima M.Imamura K.Inami G.Inguglia A.Ishikawa K.Itagaki R.Itoh M.Iwabuchi M.Iwasaki Y.Iwasaki S.Iwata W.W.Jacobs I.Jaegle H.B.Jeon Y.Jin D.Joffe M.Jones K.K.Joo T.Julius H.Kakuno A.B.Kaliyar J.H.Kang K.H.Kang P.Kapusta S.U.Kataoka E.Kato Y.Kato P.Katrenko H.Kawai T.Kawasaki T.Keck H.Kichimi C.Kiesling B.H.Kim D.Y.Kim H.J.Kim H.-J.Kim J.B.Kim J.H.Kim K.T.Kim M.J.Kim S.H.Kim S.K.Kim Y.J.Kim K.Kinoshita C.Kleinwort J.Klucar B.R.Ko N.Kobayashi S.Koblitz P.Kodys Y.Koga S.Korpar D.Kotchetkov R.T.Kouzes P.Krizan P.Krokovny B.Kronenbitter T.Kuhr L.Kulasiri R.Kumar T.Kumita E.Kurihara Y.Kuroki A.Kuzmin P.Kvasnicka Y.-J.Kwon Y.-T.Lai J.S.Lange D.H.Lee I.S.Lee S.-H.Lee M.Leitgab R.Leitner D.Levit P.Lewis C.H.Li H.Li J.Li L.Li X.Li Y.Li L.Li Gioi J.Libby A.Limosani C.Liu Y.Liu Z.Q.Liu D.Liventsev A.Loos R.Louvot M.Lubej P.Lukin T.Luo J.MacNaughton M.Masuda T.Matsuda D.Matvienko A.Matyja S.McOnie Y.Mikami K.Miyabayashi Y.Miyachi H.Miyake H.Miyata Y.Miyazaki R.Mizuk G.B.Mohanty S.Mohanty D.Mohapatra A.Moll H.K.Moon T.Mori T.Morii H.-G.Moser T.Muller N.Muramatsu R.Mussa T.Nagamine Y.Nagasaka Y.Nakahama I.Nakamura K.R.Nakamura E.Nakano H.Nakano T.Nakano M.Nakao H.Nakayama H.Nakazawa T.Nanut K.J.Nath Z.Natkaniec M.Nayak E.Nedelkovska K.Negishi K.Neichi C.Ng C.Niebuhr M.Niiyama N.K.Nisar S.Nishida K.Nishimura O.Nitoh T.Nozaki A.Ogawa S.Ogawa T.Ohshima S.Okuno S.L.Olsen Y.Ono Y.Onuki W.Ostrowicz C.Oswald H.Ozaki P.Pakhlov G.Pakhlova B.Pal H.Palka E.Panzenbock C.-S.Park C.W.Park H.Park K.S.Park S.Paul L.S.Peak T.K.Pedlar T.Peng L.Pesantez R.Pestotnik M.Peters M.Petric L.E.Piilonen A.Poluektov K.Prasanth M.Prim K.Prothmann C.Pulvermacher M.V.Purohit J.Rauch B.Reisert E.Ribezl M.Ritter J.Rorie A.Rostomyan M.Rozanska S.Rummel S.Ryu H.Sahoo T.Saito K.Sakai Y.Sakai S.Sandilya D.Santel L.Santelj T.Sanuki J.Sasaki N.Sasao Y.Sato V.Savinov T.Schluter O.Schneider G.Schnell P.Schonmeier M.Schram C.Schwanda A.J.Schwartz B.Schwenker R.Seidl Y.Seino D.Semmler K.Senyo O.Seon I.S.Seong M.E.Sevior L.Shang M.Shapkin V.Shebalin C.P.Shen T.-A.Shibata H.Shibuya N.Shimizu S.Shinomiya J.-G.Shiu B.Shwartz A.Sibidanov F.Simon J.B.Singh R.Sinha P.Smerkol Y.-S.Sohn A.Sokolov Y.Soloviev E.Solovieva S.Stanic M.Staric M.Steder J.F.Strube J.Stypula S.Sugihara A.Sugiyama M.Sumihama K.Sumisawa T.Sumiyoshi K.Suzuki S.Suzuki S.Y.Suzuki Z.Suzuki H.Takeichi M.Takizawa U.Tamponi M.Tanaka S.Tanaka K.Tanida N.Taniguchi G.N.Taylor F.Tenchini Y.Teramoto I.Tikhomirov K.Trabelsi V.Trusov Y.F.Tse T.Tsuboyama M.Uchida T.Uchida S.Uehara K.Ueno T.Uglov Y.Unno S.Uno S.Uozumi P.Urquijo Y.Ushiroda Y.Usov S.E.Vahsen C.Van Hulse P.Vanhoefer G.Varner K.E.Varvell K.Vervink A.Vinokurova V.Vorobyev A.Vossen M.N.Wagner C.H.Wang J.Wang M.-Z.Wang P.Wang X.L.Wang M.Watanabe Y.Watanabe R.Wedd S.Wehle E.White E.Widmann J.Wiechczynski K.M.Williams E.Won B.D.Yabsley S.Yamada H.Yamamoto J.Yamaoka Y.Yamashita M.Yamauchi S.Yashchenko H.Ye J.Yelton Y.Yook C.Z.Yuan Y.Yusa C.C.Zhang L.M.Zhang Z.P.Zhang L.Zhao V.Zhilich V.Zhukova V.Zhulanov M.Ziegler T.Zivko A.Zupanc N.Zwahlen O.Zyukova
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keywords upsilonenergycollecteddatafinalpeakproductionrange
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We report results on the studies of the $e^+e^-\to B_s^{(*)}\bar{B}_s^{(*)}$ processes. The results are based on a $121.4$ fb$^{-1}$ data sample collected with the Belle detector at the center-of-mass energy near the $\Upsilon(10860)$ peak and $16.4$ fb$^{-1}$ of data collected at 19 energy points in the range from 10.77 to 11.02 GeV. We observe a clear $e^+e^-\to\Upsilon(10860)\to B_s^{(*)}\bar{B}_s^{(*)}$ signal, with no statistically significant signal of $e^+e^-\to \Upsilon(11020)\to B_s^{(*)}\bar{B}_s^{(*)}$. The relative production ratio of $B_s^*\bar{B}_s^*$, $B_s\bar{B}_s^{*}$, and $B_s\bar{B}_s$ final states at $\sqrt{s}=10.866$ GeV is measured to be $7:$ $0.856\pm0.106(stat.)\pm0.053(syst.):$ $0.645\pm0.094(stat.)^{+0.030}_{-0.033}(syst.)$. An angular analysis of the $B_s^*\bar{B}_s^*$ final state produced at the $\Upsilon(10860)$ peak is also performed.

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