Measurement of central exclusiveπ+π−production inpp¯collisions ats=0.9and 1.96 TeV at CDF

T Aaltonen,H Gerberich,S Amerio,S Carrillo,S Zucchelli,M Iori,A Semenov,B Auerbach,D Torretta,G Manca,P De Barbaro,E Thomson,Y Funakoshi,E James,G Piacentino,A Boveia,K Takemasa,M Corbo,F Happacher,P Garosi,I Suslov,C Mesropian,S Errede,D Cruz,V Rusu,E Gerchtein,P Totaro,K Sliwa,S Torre,D Cauz,L Pondrom,G Chlachidze,T Wright,M Franklin,L Santi,K Potamianos,F Rimondi,P Marino,F Ruffini,M Vidal,M Kambeitz,P Schlabach,M Jones,K Tollefson,E Palencia,M Gold,M Stancari,D Toback,G Volpi,E Gramellini,J Lys,J Keung,Y Seiya,R Mcnulty,C Plager,D Stentz,J Naganoma,I Oksuzian,V Thukral,F Ptohos,S Leo,C Grosso-Pilcher,P Catastini,M Mussini,G Introzzi,J Vizán,K Matera,R Orava,N Moggi,P Lukens,W Ketchum,Q Liu,D Mietlicki,H Wolfe,T Tomura,R Culbertson,D Yamato,G Busetto,O Norniella,R Vilar,M Lancaster,H Miyake,W Ashmanskas,M Kurata,A Bodek,R St Denis,L Nodulman,D Goldin,P Mazzanti,S Uozumi,F Azfar,J Yoh,A Bhatti,G Lungu,A Mitra,A Ruiz,M Dorigo,T Kuhr,J Conway,C Pagliarone,A Elagin,S Lockwitz,V Papadimitriou,M Hare,A Manousakis-Katsikakis,S Donati,J Boudreau,M Rescigno,K Goulianos,C Bromberg,L Demortier,G Punzi,D Waters,T Bae,A Anastassov,A Mazzacane,J Budagov,L Ortolan,M Shimojima,G Velev,Y Kato,A Golossanov,J Lueck,P Giromini,A Loginov,S Behari,S Rolli,R Madrak,A Aurisano,R Roser,G Flanagan,T Miao,D Tonelli,A Mukherjee,G Pauletta,D Lucchesi,Y Sakurai,M Datta,K Kondo,B Carls,A Pranko,B Di Ruzza,Y Zeng,T Nigmanov,M Cordelli,F Canelli,M Tecchio,C Vellidis,T Harrington-Taber,W Badgett,T Okusawa,F Vázquez,I Shreyber-Tecker,Y Takeuchi,A Napier,J Asaadi,J Nett,Y Sudo,L Brigliadori,C Neu,T Yang,S Poprocki,A Artikov,V Saveliev,R Forrest,T Rodriguez,S Wolbers,B Esham,P Wilson,W Parker,P Murat,F Devoto,A Di Canto,D Chokheli,D Amidei,K Gibson,A Driutti,N Giokaris,M Hussein,J Huston,K Ebina,G Gómez-Ceballos ,J Antos̆ ,J E Kim ,P Lujan,S Camarda,B Casal,T R Junk ,Th Müller ,J Guimarães Da Costa ,S H Oh ,K Yorita,M Kreps,А Симоненко ,S Malik,C Zhou,Y J Kim ,T Kamon,J Dittmann ,K Yi,S B Kim ,C P Hays ,F Scuri,C Galloni,P Wagner,N Kimura,A Savoy-Navarro,S Giagu,K Yamamoto,G P Yeh ,A Clark,J Freeman ,A Mehta,L Ristori,D Bortoletto,D Benjamin,L Marchese,T Arisawa,D J Cox ,W H Hopkins ,P Butti,S Y Noh ,A T Laasanen ,D Lontkovskyi,K K Joo ,P Barria,Y K Kim ,G Apollinari,V Sorı́n ,A Limosani,J Heinrich,A Kasmi,W-M Yao ,M Trovato,K Burkett,J D Lewis ,A Annovi,M Chertok,U Husemann,S Leone,Z Wu,R Carosi,Yang Yu ,E E Schmidt ,G Bellettini,D Whiteson,N D’Ascenzo,J Nachtman,A B Wicklund ,R C Edgar ,H Frisch,J Pilot,E Lipeles,L Oakes,R Wallny,A Kotwal ,D J Kong ,S Jindariani,F Bedeschi,P Bussey,W C Wester ,M Vogel,J P Fernández Ramos ,M J Morello ,S Lammel,K Hatakeyama,P K Teng ,P Palni,J Bellinger,M Goncharov,G B Yu ,A Lister,R Moore,V Glagolev,K R Bland ,S Wilbur,J Cuevas,M Deninno,M Campanelli,I Yu,A Robson,I Redondo ,F Sforza,K Sato,A Buzatu,B Kilminster,C M Ginsburg ,M Kruse,M J Kim ,K J Knoepfel ,M Paulini,B Jayatilaka,T Liu,C S Moon ,B L Winer ,K Pitts,B A Barnett ,M Shochet,B Blumenfeld,K Hara,Z Hong,K Lannon,K Cho,M E Convery ,H Liu,Y Nagai,R Erbacher,H H Williams ,R Lysák ,S Hou,J Thom,S R Hahn ,A Höcker ,O González López,A Ivanov,P Mehtälä ,J Smith ,A T Goshaw ,A Lucà ,I Makarenko,S Shalhout ,J Kroll,G Latino,M Albrow ,J S Wilson ,I Nakano,P Maestro,V Cavaliere,E Brücken ,Jonathan L Rosner ,M Bauce,I Gorelov,U K Yang ,F Ukegawa,A Calamba,C Clarke,L Cerrito,F Margaroli,E Pianori,C A Cox ,S M Farrington ,S H Kim ,J A Appel ,H Song,M D’Onofrio,D Glenzinskí ,D Jang,J Strologas,A Castro,R D Field ,A Cerri,C Vernieri,S M Wang ,T Yoshida,T Shears,S Tokár ,M Herndon,Y D Oh ,C Paus,P E Karchin ,J Königsberg ,H S Budd ,M Ronzani,J Han ,L Scodellaro,S C Seidel ,D Carlsmith,J Russ,M D’Errico,A Beretvas,A Barbaro‐Galtieri ,S Y Jun ,T J Phillips ,P F Shepard ,Thomas Schwarz ,J S Lee ,F D Snider ,A Zanetti ,D H Kim ,X Wu,H S Kim ,M Kirby,S Moêd ,J Tang,H S Lee ,V Giakoumopoulou,E J Jeon ,P Wittich,F Prokoshin,A F Garfinkel ,M E Mattson ,V E Barnes ,G Gómez ,W K Sakumoto ,G Chiarelli,M Casarsa,P Renton,P Bartoš ,Y C Chen ,M Cremonesi,R Hughes ,R Harr ,A Bocci,А Суханов ,M Żurek

doi:10.1103/physrevd.91.091101

Abstract

We measure exclusive $\pi^+\pi^-$ production in proton-antiproton collisions at center-of-mass energies $\sqrt{s}$ = 0.9 and 1.96 TeV in the Collider Detector at Fermilab. We select events with two oppositely charged particles, assumed to be pions, with pseudorapidity $|\eta| < 1.3$ and with no other particles detected in $|\eta| < 5.9$. We require the $\pi^+\pi^-$ system to have rapidity $|y|<$ 1.0. The production mechanism of these events is expected to be dominated by double pomeron exchange, which constrains the quantum numbers of the central state. The data are potentially valuable for isoscalar meson spectroscopy and for understanding the pomeron in a region of transition between nonperturbative and perturbative quantum chromodynamics. The data extend up to dipion mass $M(\pi^+\pi^-)$ = 5000 MeV/$c^2$ and show resonance structures attributed to $f_0$ and $f_2(1270)$ mesons. From the $\pi^+\pi^-$ and $K^+K^-$ spectra, we place upper limits on exclusive $\chi_{c0}(3415)$ production.

Highlights

41bUniversity of Pisa, I-27100 Pavia, Italy 41cUniversity of Siena, I-27100 Pavia, Italy 41dScuola Normale Superiore, I-56127 Pisa, Italy
The data are potentially valuable for isoscalar meson spectroscopy and for understanding the pomeron in a region of transition between nonperturbative and perturbative quantum chromodynamics
The theory of strong interactions between quarks and gluons, calculations of hadronic interactions are most reliable in the perturbative regime of high four-momentum transfer squared, i.e., for distance scales much less than the size of hadrons, typically

Summary

Introduction

41bUniversity of Pisa, I-27100 Pavia, Italy 41cUniversity of Siena, I-27100 Pavia, Italy 41dScuola Normale Superiore, I-56127 Pisa, Italy. As we do not detect the final-state (anti) protons, the data include diffractive dissociation if all the produced hpadffirffions have jηj > 5.9, with higher pÃ masses allowed at s 1⁄4 1.96 TeV than at 0.9 TeV.

Results

Conclusion