Triangle Singularity as the Origin of the a_{1}(1420).

G D Alexeev ,K Kondo Horikawa,F Tosello,B Grube,M Meyer,E Zemlyanichkina,T Iwata,C Quintans,M Grosse Perdekamp,W.-D Nowak,B Badełek,A Cicuttin,J Bernhard,A Martin,A Thiel,N Makke,M Chiosso,I Denisenko,A Grasso,L Sinha,M Zemko,M Zavertyaev,J Berenguer Antequera,J Lichtenstadt,A Maggiora,K Augsten,M Gorzellik,A Kerbizi,G Sbrizzai,W Dünnweber,P Jörg,W Augustyniak,S Dasgupta,M Bodlak,M Ziembicki,G Nukazuka,A Amoroso,A Selyunin,D Steffen,N Pierre,S Uhl,M Mikhasenko,A Efremov,M Ball,Yu Kisselev,S Levorato,M Stolarski,D Von Harrach,P.-J Lin,M Quaresma,S Ishimoto,A Moretti,A Gridin,P Sznajder,E Kabuß,F Klein,C.-Y Hsieh,E Mitrofanov,J Nový,C Chatterjee,O Subrt,D Neyret,J Marzec,A Bressan,S Platchkov,A Guskov,K Kurek,M Ostrick,G Mattson,H Fischer,J Giarra,I Konorov,A Srnka,I Gnesi,B Parsamyan,S Tessaro,F Bradamante,C Riedl,M Virius,F Balestra,S Wallner,R Beck,Y.-S Lian,S Paul,J Barth,A Koval,A Maltsev,S Huber,S Gerassimov,F Gautheron,R Joosten,H Pekeler,F Herrmann,A Vauth,M Jandek,T Matsuda,M Faessler,A Kveton,N Doshita,Ch Dreisbach,A Sandacz,J Pretz,M Finger,A Antoshkin,G Reicherz,F Kunne,J.-C Peng,N D’Hose,V Andrieux,M Pešková,J Pochodzalla,T Rudnicki,J Tomsa,M Pešek,C Naim,F Krinner,R Heitz,D D’Ago,F Tessarotto,D Panzieri,Y Miyachi,N Makins,N Horikawa,N Mitrofanov,H Schmieden,C Franco,V Tskhay,P Faccioli,Y Bedfer,A Vidon,A Magnon,A Rychter,A Nagaytsev,B Ketzer,S Sarkar,W Meyer,D.v Peshekhonov ,К Заремба ,D I Ryabchikov ,V.n Kolosov ,J Smolík ,M N Wagner ,O Kouznetsov ,V V Frolov ,Hiromasa Suzuki ,Jan Matoušek ,Riccardo Longo ,J.h Koivuniemi ,I Savin ,S.v Donskov ,В Аносов ,A.g Chumakov ,S.a Mamon ,V.e Burtsev ,B I Vasilishin ,K Lavičková ,B.m Veit ,G Meshcheryakov ,S Torre ,W C Chang ,Y X Zhao ,S U Chung ,P M M Correia ,О Денисов ,Yu.v Mikhailov ,M.l Crespo ,В.ф Константинов ,M Alexeev ,P.d Eversheim ,Y P Kulinich ,C.d.r Azevedo ,А Иванов ,Austin Townsend ,V Jarý ,M Šulc ,B Mariański ,R R Dusaev ,J.f.c.a Veloso ,A S Nunes ,V.d Samoylenko ,Zdeněk Král ,Jan Friedrich ,P Závada ,V.a Polyakov ,F Kašpar ,O.p Gavrichtchouk ,А.g Оlshevsky ,A.m Kotzinian ,M Slunečka ,А Рыбников ,Valery E Lyubovitskij ,G.k Mallot ,G.v Khaustov ,R Kurjata ,Bartolomeo Della Ventura ,Yu.a Khokhlov

doi:10.1103/physrevlett.127.082501

Abstract

The COMPASS Collaboration experiment recently discovered a new isovector resonancelike signal with axial-vector quantum numbers, the a_{1}(1420), decaying to f_{0}(980)π. With a mass too close to and a width smaller than the axial-vector ground state a_{1}(1260), it was immediately interpreted as a new light exotic meson, similar to the X, Y, Z states in the hidden-charm sector. We show that a resonancelike signal fully matching the experimental data is produced by the decay of the a_{1}(1260) resonance into K^{*}(→Kπ)K[over ¯] and subsequent rescattering through a triangle singularity into the coupled f_{0}(980)π channel. The amplitude for this process is calculated using a new approach based on dispersion relations. The triangle-singularity model is fitted to the partial-wave data of the COMPASS experiment. Despite having fewer parameters, this fit shows a slightly better quality than the one using a resonance hypothesis and thus eliminates the need for an additional resonance in order to describe the data. We thereby demonstrate for the first time in the light-meson sector that a resonancelike structure in the experimental data can be described by rescattering through a triangle singularity, providing evidence for a genuine three-body effect.

Highlights

The COMPASS Collaboration experiment recently discovered a new isovector resonancelike signal with axial-vector quantum numbers, the a1ð1420Þ, decaying to f0ð980Þπ
We show that a resonancelike signal fully matching the experimental data is produced by the decay of the a1ð1260Þ resonance into KÃð→ KπÞKand subsequent rescattering through a triangle singularity into the coupled f0ð980Þπ channel
The triangle-singularity model is fitted to the partial-wave data of the COMPASS experiment

Summary

Introduction

The COMPASS Collaboration experiment recently discovered a new isovector resonancelike signal with axial-vector quantum numbers, the a1ð1420Þ, decaying to f0ð980Þπ. The triangle-singularity model is fitted to the partial-wave data of the COMPASS experiment.

Results

Conclusion