Now showing 1 - 8 of 8
  • Publication
    Modelling and computational improvements to the simulation of single vector-boson plus jet processes for the ATLAS experiment
    (2022-08-01)
    Aad, G.
    ;
    Abbott, B.
    ;
    Abbott, D. C.
    ;
    Abed Abud, A.
    ;
    Abeling, K.
    ;
    Abhayasinghe, D. K.
    ;
    Abidi, S. H.
    ;
    Aboulhorma, A.
    ;
    Abramowicz, H.
    ;
    Abreu, H.
    ;
    Abulaiti, Y.
    ;
    Abusleme Hoffman, A. C.
    ;
    Acharya, B. S.
    ;
    Achkar, B.
    ;
    Adam, L.
    ;
    Adam Bourdarios, C.
    ;
    Adamczyk, L.
    ;
    Adamek, L.
    ;
    Addepalli, S. V.
    ;
    Adelman, J.
    ;
    Adiguzel, A.
    ;
    Adorni, S.
    ;
    Adye, T.
    ;
    Affolder, A. A.
    ;
    Afik, Y.
    ;
    Agapopoulou, C.
    ;
    Agaras, M. N.
    ;
    Agarwala, J.
    ;
    Aggarwal, A.
    ;
    Agheorghiesei, C.
    ;
    Aguilar-Saavedra, J. A.
    ;
    Ahmad, A.
    ;
    Ahmadov, F.
    ;
    Ahmed, W. S.
    ;
    Ai, X.
    ;
    Aielli, G.
    ;
    Aizenberg, I.
    ;
    Akbiyik, M.
    ;
    Åkesson, T. P.A.
    ;
    Akimov, A. V.
    ;
    Al Khoury, K.
    ;
    Alberghi, G. L.
    ;
    Albert, J.
    ;
    Albicocco, P.
    ;
    Alconada Verzini, M. J.
    ;
    Alderweireldt, S.
    ;
    Aleksa, M.
    ;
    Aleksandrov, I. N.
    ;
    Alexa, C.
    ;
    Alexopoulos, T.
    ;
    Alfonsi, A.
    ;
    Alfonsi, F.
    ;
    Alhroob, M.
    ;
    Ali, B.
    ;
    Ali, S.
    ;
    Aliev, M.
    ;
    Alimonti, G.
    ;
    Allaire, C.
    ;
    Allbrooke, B. M.M.
    ;
    Allport, P. P.
    ;
    Aloisio, A.
    ;
    Alonso, F.
    ;
    Alpigiani, C.
    ;
    Alunno Camelia, E.
    ;
    Alvarez Estevez, M.
    ;
    Alviggi, M. G.
    ;
    Amaral Coutinho, Y.
    ;
    Ambler, A.
    ;
    Ambroz, L.
    ;
    Amelung, C.
    ;
    Amidei, D.
    ;
    Amor Dos Santos, S. P.
    ;
    Amoroso, S.
    ;
    Amos, K. R.
    ;
    Amrouche, C. S.
    ;
    Ananiev, V.
    ;
    Anastopoulos, C.
    ;
    Andari, N.
    ;
    Andeen, T.
    ;
    Anders, J. K.
    ;
    Andrean, S. Y.
    ;
    Andreazza, A.
    ;
    Angelidakis, S.
    ;
    Angerami, A.
    ;
    Anisenkov, A. V.
    ;
    Annovi, A.
    ;
    Antel, C.
    ;
    Anthony, M. T.
    ;
    Antipov, E.
    ;
    Antonelli, M.
    ;
    Antrim, D. J.A.
    ;
    Anulli, F.
    ;
    Aoki, M.
    ;
    Aparisi Pozo, J. A.
    ;
    Aparo, M. A.
    ;
    ; ; ;
    C. M. Robles Guajardo
    ;
    This paper presents updated Monte Carlo configurations used to model the production of single electroweak vector bosons (W, Z/γ∗) in association with jets in proton-proton collisions for the ATLAS experiment at the Large Hadron Collider. Improvements pertaining to the electroweak input scheme, parton-shower splitting kernels and scale-setting scheme are shown for multi-jet merged configurations accurate to next-to-leading order in the strong and electroweak couplings. The computational resources required for these set-ups are assessed, and approximations are introduced resulting in a factor three reduction of the per-event CPU time without affecting the physics modelling performance. Continuous statistical enhancement techniques are introduced by ATLAS in order to populate low cross-section regions of phase space and are shown to match or exceed the generated effective luminosity. This, together with the lower per-event CPU time, results in a 50% reduction in the required computing resources compared to a legacy set-up previously used by the ATLAS collaboration. The set-ups described in this paper will be used for future ATLAS analyses and lay the foundation for the next generation of Monte Carlo predictions for single vector-boson plus jets production.
    Scopus© Citations 7
  • Publication
    Search for new phenomena in three- or four-lepton events in ppcollisions at √s = 13TeV with the ATLAS detector
    (2022-01-10)
    Aad, G.
    ;
    Abbott, B.
    ;
    Abbott, D. C.
    ;
    Abed Abud, A.
    ;
    Abeling, K.
    ;
    Abhayasinghe, D. K.
    ;
    Abidi, S. H.
    ;
    AbouZeid, O. S.
    ;
    Abramowicz, H.
    ;
    Abreu, H.
    ;
    Abulaiti, Y.
    ;
    Abusleme Hoffman, A. C.
    ;
    Acharya, B. S.
    ;
    Achkar, B.
    ;
    Adam, L.
    ;
    Adam Bourdarios, C.
    ;
    Adamczyk, L.
    ;
    Adamek, L.
    ;
    Adelman, J.
    ;
    Adiguzel, A.
    ;
    Adorni, S.
    ;
    Adye, T.
    ;
    Affolder, A. A.
    ;
    Afik, Y.
    ;
    Agapopoulou, C.
    ;
    Agaras, M. N.
    ;
    Ahmad, A.
    ;
    Ahmed, W. S.
    ;
    Ai, X.
    ;
    Aielli, G.
    ;
    Akatsuka, S.
    ;
    Albert, J.
    ;
    Alconada Verzini, M. J.
    ;
    Alderweireldt, S.
    ;
    Aleksa, M.
    ;
    Aleksandrov, I. N.
    ;
    Alexa, C.
    ;
    Alfonsi, A.
    ;
    Ali, S.
    ;
    Aliev, M.
    ;
    Alimonti, G.
    ;
    Allaire, C.
    ;
    Allbrooke, B. M.M.
    ;
    Allport, P. P.
    ;
    Aloisio, A.
    ;
    Alonso, F.
    ;
    Alpigiani, C.
    ;
    Alvarez Estevez, M.
    ;
    Alviggi, M. G.
    ;
    Amaral Coutinho, Y.
    ;
    Ambler, A.
    ;
    Ambroz, L.
    ;
    Amelung, C.
    ;
    Amidei, D.
    ;
    Amor Dos Santos, S. P.
    ;
    Amoroso, S.
    ;
    Amrouche, C. S.
    ;
    Anastopoulos, C.
    ;
    Andari, N.
    ;
    Andeen, T.
    ;
    Anders, J. K.
    ;
    Andrean, S. Y.
    ;
    Andreazza, A.
    ;
    Andrei, V.
    ;
    Angelidakis, S.
    ;
    Angerami, A.
    ;
    Anthony, M. T.
    ;
    Antipov, E.
    ;
    Antonelli, M.
    ;
    Antrim, D. J.A.
    ;
    Anulli, F.
    ;
    Aoki, M.
    ;
    Aparisi Pozo, J. A.
    ;
    ; ; ;
    C.M Robles Gajardo
    ;
    R. A. Rojas
    ;
    ;
    Arena, E.
    ;
    Arguin, J. F.
    ;
    Argyropoulos, S.
    A search with minimal model dependence for physics beyond the Standard Model in events featuring three or four charged leptons (3l and 4l, l = e, mu) is presented. The analysis aims to be sensitive to a wide range of potential new-physics theories simultaneously. This analysis uses data from pp collisions delivered by the Large Hadron Collider at a centre-of-mass energy of root s = 13 TeV and recorded with the ATLAS detector, corresponding to the full Run 2 dataset of 139 fb(-1). The 3l and 4l phase space is divided into 22 event categories according to the number of leptons in the event, the missing transverse momentum, the invariant mass of the leptons, and the presence of leptons originating from a Z-boson candidate. These event categories are analysed independently for the presence of deviations from the Standard Model. No statistically significant deviations from the Standard Model predictions are observed. Upper limits for all signal regions are reported in terms of the visible cross-section.
    Scopus© Citations 15
  • Publication
    Search for Higgs bosons decaying into new spin-0 or spin-1 particles in four-lepton final states with the ATLAS detector with 139 fb −1 of pp collision data at √s = 13 TeV
    (2022-03-01)
    Aad, G.
    ;
    Abbott, B.
    ;
    Abbott, D. C.
    ;
    Abed Abud, A.
    ;
    Abeling, K.
    ;
    Abhayasinghe, D. K.
    ;
    Abidi, S. H.
    ;
    Aboulhorma, A.
    ;
    Abramowicz, H.
    ;
    Abreu, H.
    ;
    Abulaiti, Y.
    ;
    Abusleme Hoffman, A. C.
    ;
    Acharya, B. S.
    ;
    Achkar, B.
    ;
    Adam, L.
    ;
    Adam Bourdarios, C.
    ;
    Adamczyk, L.
    ;
    Adamek, L.
    ;
    Addepalli, S. V.
    ;
    Adelman, J.
    ;
    Adiguzel, A.
    ;
    Adorni, S.
    ;
    Adye, T.
    ;
    Affolder, A. A.
    ;
    Afik, Y.
    ;
    Agapopoulou, C.
    ;
    Agaras, M. N.
    ;
    Agarwala, J.
    ;
    Aggarwal, A.
    ;
    Agheorghiesei, C.
    ;
    Aguilar-Saavedra, J. A.
    ;
    Ahmad, A.
    ;
    Ahmadov, F.
    ;
    Ahmed, W. S.
    ;
    Ai, X.
    ;
    Aielli, G.
    ;
    Aizenberg, I.
    ;
    Akatsuka, S.
    ;
    Akbiyik, M.
    ;
    Åkesson, T. P.A.
    ;
    Akimov, A. V.
    ;
    Al Khoury, K.
    ;
    Alberghi, G. L.
    ;
    Albert, J.
    ;
    Albicocco, P.
    ;
    Alconada Verzini, M. J.
    ;
    Alderweireldt, S.
    ;
    Aleksa, M.
    ;
    Aleksandrov, I. N.
    ;
    Alexa, C.
    ;
    Alexopoulos, T.
    ;
    Alfonsi, A.
    ;
    Alfonsi, F.
    ;
    Alhroob, M.
    ;
    Ali, B.
    ;
    Ali, S.
    ;
    Aliev, M.
    ;
    Alimonti, G.
    ;
    Allaire, C.
    ;
    Allbrooke, B. M.M.
    ;
    Allport, P. P.
    ;
    Aloisio, A.
    ;
    Alonso, F.
    ;
    Alpigiani, C.
    ;
    Alunno Camelia, E.
    ;
    Alvarez Estevez, M.
    ;
    Alviggi, M. G.
    ;
    Amaral Coutinho, Y.
    ;
    Ambler, A.
    ;
    Ambroz, L.
    ;
    Amelung, C.
    ;
    Amidei, D.
    ;
    Amor Dos Santos, S. P.
    ;
    Amoroso, S.
    ;
    Amos, K. R.
    ;
    Amrouche, C. S.
    ;
    Ananiev, V.
    ;
    Anastopoulos, C.
    ;
    Andari, N.
    ;
    Andeen, T.
    ;
    Anders, J. K.
    ;
    Andrean, S. Y.
    ;
    Andreazza, A.
    ;
    Angelidakis, S.
    ;
    Angerami, A.
    ;
    Anisenkov, A. V.
    ;
    Annovi, A.
    ;
    Antel, C.
    ;
    Anthony, M. T.
    ;
    Antipov, E.
    ;
    Antonelli, M.
    ;
    Antrim, D. J.A.
    ;
    Anulli, F.
    ;
    Aoki, M.
    ;
    Aparisi Pozo, J. A.
    ;
    Aparo, M. A.
    ;
    Aperio Bella, L.
    ;
    ; ; ;
    C. M. Robles Guajardo
    ;
    Searches are conducted for new spin-0 or spin-1 bosons using events where a Higgs boson with mass 125 GeV decays into four leptons (ℓ = e, μ). This decay is presumed to occur via an intermediate state which contains two on-shell, promptly decaying bosons: H → XX/ZX → 4ℓ, where the new boson X has a mass between 1 and 60 GeV. The search uses pp collision data collected with the ATLAS detector at the LHC with an integrated luminosity of 139 fb−1 at a centre-of-mass energy = 13 TeV. The data are found to be consistent with Standard Model expectations. Limits are set on fiducial cross sections and on the branching ratio of the Higgs boson to decay into XX/ZX, improving those from previous publications by a factor between two and four. Limits are also set on mixing parameters relevant in extensions of the Standard Model containing a dark sector where X is interpreted to be a dark boson.
    Scopus© Citations 24
  • Publication
    Measurement of t-channel single-top-quark production in pp collisions at s=5.02 TeV with the ATLAS detector
    (2024-07-01)
    Aad, G.
    ;
    Abbott, B.
    ;
    Abeling, K.
    ;
    Abicht, N. J.
    ;
    Abidi, S. H.
    ;
    Aboulhorma, A.
    ;
    Abramowicz, H.
    ;
    Abreu, H.
    ;
    Abulaiti, Y.
    ;
    Acharya, B. S.
    ;
    Adam Bourdarios, C.
    ;
    Adamczyk, L.
    ;
    Adamek, L.
    ;
    Addepalli, S. V.
    ;
    Addison, M. J.
    ;
    Adelman, J.
    ;
    Adiguzel, A.
    ;
    Adye, T.
    ;
    Affolder, A. A.
    ;
    Afik, Y.
    ;
    Agaras, M. N.
    ;
    Agarwala, J.
    ;
    Aggarwal, A.
    ;
    Agheorghiesei, C.
    ;
    Ahmad, A.
    ;
    Ahmadov, F.
    ;
    Ahmed, W. S.
    ;
    Ahuja, S.
    ;
    Ai, X.
    ;
    Aielli, G.
    ;
    Aikot, A.
    ;
    Ait Tamlihat, M.
    ;
    Aitbenchikh, B.
    ;
    Aizenberg, I.
    ;
    Akbiyik, M.
    ;
    Åkesson, T. P.A.
    ;
    Akimov, A. V.
    ;
    Akiyama, D.
    ;
    Akolkar, N. N.
    ;
    Al Khoury, K.
    ;
    Alberghi, G. L.
    ;
    Albert, J.
    ;
    Albicocco, P.
    ;
    Albouy, G. L.
    ;
    Alderweireldt, S.
    ;
    Aleksa, M.
    ;
    Aleksandrov, I. N.
    ;
    Alexa, C.
    ;
    Alexopoulos, T.
    ;
    Alfonsi, F.
    ;
    Algren, M.
    ;
    Alhroob, M.
    ;
    Ali, B.
    ;
    Ali, H. M.J.
    ;
    Ali, S.
    ;
    Alibocus, S. W.
    ;
    Aliev, M.
    ;
    Alimonti, G.
    ;
    Alkakhi, W.
    ;
    Allaire, C.
    ;
    Allbrooke, B. M.M.
    ;
    Allen, J. F.
    ;
    Allendes Flores, C. A.
    ;
    Allport, P. P.
    ;
    Aloisio, A.
    ;
    Alonso, F.
    ;
    Alpigiani, C.
    ;
    Alvarez Estevez, M.
    ;
    Alvarez Fernandez, A.
    ;
    Alves Cardoso, M.
    ;
    Alviggi, M. G.
    ;
    Aly, M.
    ;
    Amaral Coutinho, Y.
    ;
    Ambler, A.
    ;
    Amelung, C.
    ;
    Amerl, M.
    ;
    Ames, C. G.
    ;
    Amidei, D.
    ;
    Amor Dos Santos, S. P.
    ;
    Amos, K. R.
    ;
    Ananiev, V.
    ;
    Anastopoulos, C.
    ;
    Andeen, T.
    ;
    Anders, J. K.
    ;
    Andrean, S. Y.
    ;
    Andreazza, A.
    ;
    Angelidakis, S.
    ;
    Angerami, A.
    ;
    Anisenkov, A. V.
    ;
    Annovi, A.
    ;
    Antel, C.
    ;
    Anthony, M. T.
    ;
    Antipov, E.
    ;
    Antonelli, M.
    ;
    Anulli, F.
    ;
    Aoki, M.
    ;
    Aoki, T.
    ;
    Aparisi Pozo, J. A.
    ;
    Aparo, M. A.
    ;
    Aperio Bella, L.
    ;
    ; ;
    Fernandez Luengo, S.I.
    ;
    ;
    Carolina Robles Gajardo
    ;
    ;
    The observation of the electroweak production of single-top-quarks is made using 255 pb−1 of proton-proton collision data recorded at s√=5.02 TeV with the ATLAS detector at the Large Hadron Collider. An event selection is used to identify single-top-quark candidates arising from t-channel production with the top quark decaying semi-leptonically. Events passing the selection are then used to measure the inclusive cross-section for the combined production of single-top-quarks and antiquarks, σ(tq+t¯q), and the ratio Rt between these two. They are measured to be σ(tq+t¯q)=27.1+4.4−4.1(stat.)+4.4−3.7(syst.) pb and Rt=2.73+1.43−0.82(stat.)+1.01−0.29(syst.). The individual single-top-quark (tq) and single-top-antiquark (t¯q) production cross-sections are measured to be σ(tq)=19.8+3.9−3.1(stat.)+2.9−2.2(syst.) pb and σ(t¯q)=7.3+3.2−2.1(stat.)+2.8−1.5(syst.) pb. All measurements are in good agreement with the Standard Model predictions.
  • Publication
    A search for an unexpected asymmetry in the production of e+μ and eμ+ pairs in proton–proton collisions recorded by the ATLAS detector at s=13 TeV
    (2022-07-10)
    Aad, G.
    ;
    Abbott, B.
    ;
    Abbott, D. C.
    ;
    Abed Abud, A.
    ;
    Abeling, K.
    ;
    Abhayasinghe, D. K.
    ;
    Abidi, S. H.
    ;
    Aboulhorma, A.
    ;
    Abramowicz, H.
    ;
    Abreu, H.
    ;
    Abulaiti, Y.
    ;
    Abusleme Hoffman, A. C.
    ;
    Acharya, B. S.
    ;
    Achkar, B.
    ;
    Adam, L.
    ;
    Adam Bourdarios, C.
    ;
    Adamczyk, L.
    ;
    Adamek, L.
    ;
    Addepalli, S. V.
    ;
    Adelman, J.
    ;
    Adiguzel, A.
    ;
    Adorni, S.
    ;
    Adye, T.
    ;
    Affolder, A. A.
    ;
    Afik, Y.
    ;
    Agapopoulou, C.
    ;
    Agaras, M. N.
    ;
    Agarwala, J.
    ;
    Aggarwal, A.
    ;
    Agheorghiesei, C.
    ;
    Aguilar-Saavedra, J. A.
    ;
    Ahmad, A.
    ;
    Ahmadov, F.
    ;
    Ahmed, W. S.
    ;
    Ai, X.
    ;
    Aielli, G.
    ;
    Aizenberg, I.
    ;
    Akatsuka, S.
    ;
    Akbiyik, M.
    ;
    Åkesson, T. P.A.
    ;
    Akimov, A. V.
    ;
    Al Khoury, K.
    ;
    Alberghi, G. L.
    ;
    Albert, J.
    ;
    Albicocco, P.
    ;
    Alconada Verzini, M. J.
    ;
    Alderweireldt, S.
    ;
    Aleksa, M.
    ;
    Aleksandrov, I. N.
    ;
    Alexa, C.
    ;
    Alexopoulos, T.
    ;
    Alfonsi, A.
    ;
    Alfonsi, F.
    ;
    Alhroob, M.
    ;
    Ali, B.
    ;
    Ali, S.
    ;
    Aliev, M.
    ;
    Alimonti, G.
    ;
    Allaire, C.
    ;
    Allbrooke, B. M.M.
    ;
    Allport, P. P.
    ;
    Aloisio, A.
    ;
    Alonso, F.
    ;
    Alpigiani, C.
    ;
    Alunno Camelia, E.
    ;
    Alvarez Estevez, M.
    ;
    Alviggi, M. G.
    ;
    Amaral Coutinho, Y.
    ;
    Ambler, A.
    ;
    Ambroz, L.
    ;
    Amelung, C.
    ;
    Amidei, D.
    ;
    Amor Dos Santos, S. P.
    ;
    Amoroso, S.
    ;
    Amos, K. R.
    ;
    Amrouche, C. S.
    ;
    Ananiev, V.
    ;
    Anastopoulos, C.
    ;
    Andari, N.
    ;
    Andeen, T.
    ;
    Anders, J. K.
    ;
    Andrean, S. Y.
    ;
    Andreazza, A.
    ;
    Angelidakis, S.
    ;
    Angerami, A.
    ;
    Anisenkov, A. V.
    ;
    Annovi, A.
    ;
    Antel, C.
    ;
    Anthony, M. T.
    ;
    Antipov, E.
    ;
    Antonelli, M.
    ;
    Antrim, D. J.A.
    ;
    Anulli, F.
    ;
    ; ; ;
    C.M. Robles Gajardo
    ;
    ;
    Araujo Ferraz, V.
    ;
    Arcangeletti, C.
    This search, a type not previously performed at ATLAS, uses a comparison of the production cross sections for e+μ− and e−μ+ pairs to constrain physics processes beyond the Standard Model. It uses 139 fb−1 of proton–proton collision data recorded at √s = 13 TeV at the LHC. Targeting sources of new physics which prefer final states containing e+μ− to e−μ+, the search contains two broad signal regions which are used to provide model-independent constraints on the ratio of cross sections at the 2% level. The search also has two special selections targeting supersymmetric models and leptoquark signatures. Observations using one of these selections are able to exclude, at 95% confidence level, singly produced smuons with masses up to 640 GeV in a model in which the only other light sparticle is a neutralino when the Rparity-violating coupling λ 231 is close to unity. Observations using the other selection exclude scalar leptoquarks with masses below 1880 GeV when geu 1R = g μc 1R = 1, at 95% confidence level. The limit on the coupling reduces to geu 1R = g μc 1R = 0.46 for a mass of 1420 GeV.
    Scopus© Citations 3
  • Publication
    Searches for scalar leptoquarks and differential cross-section measurements in dilepton–dijet events in proton–proton collisions at a centre-of-mass energy of √s = 13 TeV with the ATLAS experiment
    (2019-09-01)
    Afik, Y.
    ;
    Agheorghiesei, C.
    ;
    Aguilar-Saavedra, J. A.
    ;
    Ahmadov, F.
    ;
    Aielli, G.
    ;
    Akatsuka, S.
    ;
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    Fiducial and total 𝑊 ± and 𝑍 boson cross sections, their ratios and the ratio of top-antitop-quark pair and 𝑊 -boson fiducial cross sections are measured in proton–proton collisions at a centre-of-mass energy of √𝑠 = 13.6 TeV, corresponding to an integrated luminosity of 29 fb−1 of data collected in 2022 by the ATLAS experiment at the Large Hadron Collider. The measured fiducial cross-section values for 𝑊 + → 𝓁+𝜈, 𝑊 − → 𝓁−𝜈̄, and 𝑍 → 𝓁+𝓁− (𝓁 = 𝑒 or 𝜇) boson productions are 4250 ± 150 pb, 3310 ± 120 pb, and 744 ± 20 pb, respectively, where the uncertainty is the total uncertainty, including that arising from the luminosity of about 2.2%. The measurements are in agreement with Standard-Model predictions calculated at next-to-next-to-leading-order in 𝛼𝑠 , next-to-nextto-leading logarithmic accuracy and next-to-leading-order electroweak accuracy
  • Publication
    Azimuthal Angle Correlations of Muons Produced via Heavy-Flavor Decays in 5.02 TeV Pb+Pb and pp Collisions with the ATLAS Detector
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    Lampl, W.
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    Zhou, H.
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    Zhou, Y.
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    Bakshi Gupta, D.
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    Burghgrave, B.
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    Farbin, A.
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    Hadavand, H. K.
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    Myers, A. J.
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    Ozturk, N.
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    Usai, G.
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    White, A.
    ;
    Angelidakis, S.
    ;
    Fassouliotis, D.
    ;
    Fountas, L.
    ;
    Gkialas, I.
    ;
    Kourkoumelis, C.
    ;
    Alexopoulos, T.
    ;
    Drivas-Koulouris, I.
    ;
    Gazis, E. N.
    ;
    Kitsaki, C.
    ;
    Maltezos, S.
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    Paraskevopoulos, C.
    ;
    Perganti, M.
    ;
    Tzanis, P.
    ;
    Andeen, T.
    ;
    Burton, C. D.
    ;
    Choi, K.
    ;
    Onyisi, P. U.E.
    ;
    Panchal, D. K.
    ;
    Tost, M.
    ;
    Unal, M.
    ;
    Huseynov, N.
    ;
    ; ; ;
    Fernandez Luengo, S.I.
    ;
    Fuenzalida Garrido, S.
    ;
    ;
    Carolina Robles Gajardo
    ;
    Tapia Araya, S.
    ;
    Angular correlations between heavy quarks provide a unique probe of the quark-gluon plasma created in ultrarelativistic heavy-ion collisions. Results are presented of a measurement of the azimuthal angle correlations between muons originating from semileptonic decays of heavy quarks produced in 5.02 TeV Pb+Pb and 𝑝⁢𝑝 collisions at the LHC. The muons are measured with transverse momenta and pseudorapidities satisfying 𝑝𝜇T>4  GeV and |𝜂𝜇|<2.4, respectively. The distributions of azimuthal angle separation Δ⁢𝜙 for muon pairs having pseudorapidity separation |Δ⁢𝜂|>0.8, are measured in different Pb+Pb centrality intervals and compared to the same distribution measured in 𝑝⁢𝑝 collisions at the same center-of-mass energy. Results are presented separately for muon pairs with opposite-sign charges, same-sign charges, and all pairs. A clear peak is observed in all Δ⁢𝜙 distributions at Δ⁢𝜙∼𝜋, consistent with the parent heavy-quark pairs being produced via hard-scattering processes. The widths of that peak, characterized using Cauchy-Lorentz fits to the Δ⁢𝜙 distributions, are found to not vary significantly as a function of Pb+Pb collision centrality and are similar for 𝑝⁢𝑝 and Pb+Pb collisions. This observation will provide important constraints on theoretical descriptions of heavy-quark interactions with the quark-gluon plasma.