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Long range rapidity correlations between the transverse momentum and the multiplicities in light-nuclei collisions. / Andronov, E.; Vechernin, V.

In: Proceedings of Science, Vol. Baldin ISHEPP XXII, 2015, p. 068_1-14.

Research output: Contribution to journalArticlepeer-review

Harvard

Andronov, E & Vechernin, V 2015, 'Long range rapidity correlations between the transverse momentum and the multiplicities in light-nuclei collisions', Proceedings of Science, vol. Baldin ISHEPP XXII, pp. 068_1-14. <http://pos.sissa.it/cgi-bin/reader/contribution.cgi?id=PoS%28Baldin%20ISHEPP%20XXII%29068>

APA

Andronov, E., & Vechernin, V. (2015). Long range rapidity correlations between the transverse momentum and the multiplicities in light-nuclei collisions. Proceedings of Science, Baldin ISHEPP XXII, 068_1-14. http://pos.sissa.it/cgi-bin/reader/contribution.cgi?id=PoS%28Baldin%20ISHEPP%20XXII%29068

Vancouver

Andronov E, Vechernin V. Long range rapidity correlations between the transverse momentum and the multiplicities in light-nuclei collisions. Proceedings of Science. 2015;Baldin ISHEPP XXII:068_1-14.

Author

Andronov, E. ; Vechernin, V. / Long range rapidity correlations between the transverse momentum and the multiplicities in light-nuclei collisions. In: Proceedings of Science. 2015 ; Vol. Baldin ISHEPP XXII. pp. 068_1-14.

BibTeX

@article{d27b58479f404107b4d57bb8503c25ae,
title = "Long range rapidity correlations between the transverse momentum and the multiplicities in light-nuclei collisions",
abstract = "During recent decades the long-range rapidity correlations phenomenon was studied both experimentally and theoretically in relativistic nuclear physics. The correlations between the multiplicities (n-n) and the transverse momentum and the multiplicity (pT-n) of charge particles are analyzed in the framework of the simple string inspired model with two types of sources. The sources of the first type (primary emitters) correspond to the initial strings formed in a hadronic collision. We introduce the sources of the second type (secondary emitters), which imitate the appearance of the emitters of a new kind resulting from interaction (fusion) of the initial strings. The model enabled to describe effectively the influence of the string fusion effects on the strength both the n-n and the pT-n correlations. It was found that in the region, where the secondary emitters start to produce, the calculation results predict the non-monotonic behaviour of the n-n and pT-n correlation coefficients with the growth of the mea",
author = "E. Andronov and V. Vechernin",
year = "2015",
language = "English",
volume = "Baldin ISHEPP XXII",
pages = "068_1--14",
journal = "Proceedings of Science",
issn = "1824-8039",
publisher = "Sissa Medialab Srl",

}

RIS

TY - JOUR

T1 - Long range rapidity correlations between the transverse momentum and the multiplicities in light-nuclei collisions

AU - Andronov, E.

AU - Vechernin, V.

PY - 2015

Y1 - 2015

N2 - During recent decades the long-range rapidity correlations phenomenon was studied both experimentally and theoretically in relativistic nuclear physics. The correlations between the multiplicities (n-n) and the transverse momentum and the multiplicity (pT-n) of charge particles are analyzed in the framework of the simple string inspired model with two types of sources. The sources of the first type (primary emitters) correspond to the initial strings formed in a hadronic collision. We introduce the sources of the second type (secondary emitters), which imitate the appearance of the emitters of a new kind resulting from interaction (fusion) of the initial strings. The model enabled to describe effectively the influence of the string fusion effects on the strength both the n-n and the pT-n correlations. It was found that in the region, where the secondary emitters start to produce, the calculation results predict the non-monotonic behaviour of the n-n and pT-n correlation coefficients with the growth of the mea

AB - During recent decades the long-range rapidity correlations phenomenon was studied both experimentally and theoretically in relativistic nuclear physics. The correlations between the multiplicities (n-n) and the transverse momentum and the multiplicity (pT-n) of charge particles are analyzed in the framework of the simple string inspired model with two types of sources. The sources of the first type (primary emitters) correspond to the initial strings formed in a hadronic collision. We introduce the sources of the second type (secondary emitters), which imitate the appearance of the emitters of a new kind resulting from interaction (fusion) of the initial strings. The model enabled to describe effectively the influence of the string fusion effects on the strength both the n-n and the pT-n correlations. It was found that in the region, where the secondary emitters start to produce, the calculation results predict the non-monotonic behaviour of the n-n and pT-n correlation coefficients with the growth of the mea

M3 - Article

VL - Baldin ISHEPP XXII

SP - 068_1-14

JO - Proceedings of Science

JF - Proceedings of Science

SN - 1824-8039

ER -

ID: 5764119