Measurement of differential bb¯- and cc¯-dijet cross-sections in the forward region of pp collisions at √s = 13 TeV; Journal of High Energy Physics; Vol. 2021, iss. 2

Measurement of differential bb¯- and cc¯-dijet cross-sections in the forward region of pp collisions at √s = 13 TeV; Journal of High Energy Physics; Vol. 2021, iss. 2

Bibliografiske detaljer
Parent link:Journal of High Energy Physics
Vol. 2021, iss. 2.— 2021.— [23, 36 p.]
Corporate Authors: Национальный исследовательский Томский политехнический университет Исследовательская школа физики высокоэнергетических процессов, Национальный исследовательский Томский политехнический университет Инженерная школа информационных технологий и робототехники Отделение автоматизации и робототехники (ОАР)
Andre forfattere: Aaij R. Roel, Beteta C. A. Carlos Abellan, Ackernley T., Adeva B. Bernardo, Eydelman S. I. Semen Isaakovich, Kharisova A. E. Anastasiya Evgenjevna, Panshin G. L. Gennady Leonidovich
Summary:Title screen
The inclusive ¯bb¯- and ¯cc¯-dijet production cross-sections in the forward region of pp collisions are measured using a data sample collected with the LHCb detector at a centre-of-mass energy of 13 TeV in 2016. The data sample corresponds to an integrated luminosity of 1.6 fb−1. Differential cross-sections are measured as a function of the transverse momentum and of the pseudorapidity of the leading jet, of the rapidity difference between the jets, and of the dijet invariant mass. A fiducial region for the measurement is defined by requiring that the two jets originating from the two b or c quarks are emitted with transverse momentum greater than 20 GeV/c, pseudorapidity in the range 2.2 < η < 4.2, and with a difference in the azimuthal angle between the two jets greater than 1.5. The integrated bb¯-dijet cross-section is measured to be 53.0 ± 9.7 nb, and the total ¯cc¯-dijet cross-section is measured to be 73 ± 16 nb. The ratio between cc¯- and bb¯-dijet cross-sections is also measured and found to be 1.37 ± 0.27. The results are in agreement with theoretical predictions at next-to-leading order.
Sprog:engelsk
Udgivet: 2021
Fag:
электронный ресурс
труды учёных ТПУ
Charm physics
Forward physics
Hadron-Hadron scattering (experiments)
Jet physics
QCD
Online adgang:https://doi.org/10.1007/JHEP02(2021)023
Format: MixedMaterials Electronisk Book Chapter
KOHA link:https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=664700

MARC

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200 1 |a Measurement of differential bb¯- and cc¯-dijet cross-sections in the forward region of pp collisions at √s = 13 TeV  |f R. Aaij, C. A. Beteta, T. Ackernley [et al.] 
203 |a Text  |c electronic 
300 |a Title screen 
320 |a [References: 39 tit.] 
330 |a The inclusive ¯bb¯- and ¯cc¯-dijet production cross-sections in the forward region of pp collisions are measured using a data sample collected with the LHCb detector at a centre-of-mass energy of 13 TeV in 2016. The data sample corresponds to an integrated luminosity of 1.6 fb−1. Differential cross-sections are measured as a function of the transverse momentum and of the pseudorapidity of the leading jet, of the rapidity difference between the jets, and of the dijet invariant mass. A fiducial region for the measurement is defined by requiring that the two jets originating from the two b or c quarks are emitted with transverse momentum greater than 20 GeV/c, pseudorapidity in the range 2.2 < η < 4.2, and with a difference in the azimuthal angle between the two jets greater than 1.5. The integrated bb¯-dijet cross-section is measured to be 53.0 ± 9.7 nb, and the total ¯cc¯-dijet cross-section is measured to be 73 ± 16 nb. The ratio between cc¯- and bb¯-dijet cross-sections is also measured and found to be 1.37 ± 0.27. The results are in agreement with theoretical predictions at next-to-leading order. 
461 |t Journal of High Energy Physics 
463 |t Vol. 2021, iss. 2  |v [23, 36 p.]  |d 2021 
610 1 |a электронный ресурс 
610 1 |a труды учёных ТПУ 
610 1 |a Charm physics 
610 1 |a Forward physics 
610 1 |a Hadron-Hadron scattering (experiments) 
610 1 |a Jet physics 
610 1 |a QCD 
701 1 |a Aaij  |b R.  |g Roel 
701 1 |a Beteta  |b C. A.  |g Carlos Abellan 
701 1 |a Ackernley  |b T. 
701 1 |a Adeva  |b B.  |g Bernardo 
701 1 |a Eydelman  |b S. I.  |g Semen Isaakovich 
701 1 |a Kharisova  |b A. E.  |c nuclear technology specialist  |c engineer of Tomsk Polytechnic University  |f 1994-  |g Anastasiya Evgenjevna  |3 (RuTPU)RU\TPU\pers\46775 
701 1 |a Panshin  |b G. L.  |c specialist in the field of informatics and computer technology  |c Senior Lecturer at Tomsk Polytechnic University  |f 1987-  |g Gennady Leonidovich  |3 (RuTPU)RU\TPU\pers\40978  |9 21367 
712 0 2 |a Национальный исследовательский Томский политехнический университет  |b Исследовательская школа физики высокоэнергетических процессов  |c (2017- )  |3 (RuTPU)RU\TPU\col\23551 
712 0 2 |a Национальный исследовательский Томский политехнический университет  |b Инженерная школа информационных технологий и робототехники  |b Отделение автоматизации и робототехники (ОАР)  |3 (RuTPU)RU\TPU\col\23553 
801 2 |a RU  |b 63413507  |c 20210514  |g RCR 
856 4 |u https://doi.org/10.1007/JHEP02(2021)023 
942 |c CF 

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