Seidl, R.Adachi, IAihara, H.Asner, D. M.Aulchenko, VAushev, T.Badhrees, IBehera, P.Belous, K.Bennett, J.Bhuyan, B.Biswal, J.Bracko, M.Browder, T. E.Campajola, M.Cao, L.Cervenkov, D.Chang, M-CChekelian, VChen, A.Chilikin, K.Cho, K.Choi, Y.Choudhury, S.Cinabro, D.Cunliffe, S.De Nardo, G.Di Capua, F.Eidelman, S.Epifanov, D.Fast, J. E.Ferber, T.Fulsom, B. G.Gaur, VGarmash, A.Giri, A.Goldenzweig, P.Hayasaka, K.Hayashii, H.Hou, W-SHuang, K.Inami, K.Ishikawa, A.Iwasaki, M.Iwasaki, Y.Jacobs, W. W.Jia, S.Jin, Y.Joo, K. K.Karyan, G.Kim, D. Y.Kim, S. H.Kodys, P.Korpar, S.Krizan, P.Kroeger, R.Krokovny, P.Kuzmin, A.Kwon, Y-JLee, S. C.Li, Y. B.Li Gioi, L.Libby, J.Lieret, K.MacQueen, C.Masuda, M.Matsuda, T.Matvienko, D.Merola, M.Miyabayashi, K.Mizuk, R.Mussa, R.Nakao, M.Nayak, M.Nisar, N. K.Nishida, S.Nishimura, K.Ogawa, S.Ono, H.Oskin, P.Pakhlov, P.Pakhlova, G.Pardi, S.Park, S-HPatra, S.Paul, S.Pedlar, T. K.Piilonen, L. E.Podobnik, T.Popov, VPrencipe, E.Prim, M. T.Ritter, M.Rout, N.Russo, G.Sahoo, D.Sakai, Y.Sandilya, S.Santelj, L.Sanuki, T.Savinov, VSchneider, O.Schnell, G.Schwanda, C.Seino, Y.Sevior, M. E.Shapkin, M.Shebalin, VShiu, J-GShwartz, B.Solovieva, E.Staric, M.Stottler, Z. S.Sumihama, M.Sumiyoshi, T.Sutcliffe, W.Takizawa, M.Tanida, K.Tenchini, F.Uchida, M.Uglov, T.Unno, Y.Usov, Y.Van Tonder, R.Varner, G.Vorobyev, V.Vossen, A.Wang, C. H.Wang, M-ZWang, P.Watanuki, S.Won, E.Xu, X.Yang, S. B.Yelton, J.Zhang, Z. P.Zhilich, VZhukova, V2020-05-272020-05-272020-05-272020-05-1310.1103/PhysRevD.101.092004https://infoscience.epfl.ch/handle/20.500.14299/168958WOS:000532113800001We report new measurements of the production cross sections of pairs of charged pions and kaons as a function of their fractional energies using various fractional-energy definitions. Two different fractional-energy definitions were used and compared to the conventional fractional-energy definition reported previously. The new variables aim at either identifying dihadron cross sections in terms of single-hadron fragmentation functions, or to provide a means of characterizing the transverse momentum created in the fragmentation process. The results were obtained applying the updated initial-state radiation correction used in other recent Belle publications on light-hadron production cross sections. In addition, production cross sections of single charged pions, kaons, and protons were also updated using this initial-state radiation correction. The cross sections are obtained from a 558 fb(-1) data sample collected at the Upsilon(4S) resonance with the Belle detector at the KEKB asymmetric-energy e(+)e(-) collider.Astronomy & AstrophysicsPhysics, Particles & FieldsAstronomy & AstrophysicsPhysicstext::journal::journal article::research article