Abstract
The quark-gluon model has been proposed to describe the relationships and main characteristics of active objects with the Higgs boson and the Higgs field in fractal systems. Within this model, the Schwarzschild gravitational radii of light quarks determine the wavelengths of active objects. The presence of the Higgs field and heavy quarks leads to the possibility of the formation of heavy Higgs bosons. The interaction of paired active objects through gluons leads to the possibility of the formation of compound particles. Estimates of a number of parameters of active objects are consistent with experimental data.
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References
The ATLAS Collaboration/CERN, Evidence for Higgs boson decays to a low-mass dilepton system and a photon in pp collisions at \(\sqrt s = 13{\text{TeV}}\) with the ATLAS detector, in ATLAS-CONF-2021–002, 1st Feb 2021
J. Dove, B. Kerns, R.E. McClellan et al., The asymmetry of antimatter in the proton. Nature 590, 561–565 (2021)
L. An, Latest results on exotic hadrons at LHCb, in CERN-LHC Seminar, 16 June 2020
V. Mossa, K. Stӧckel, F. Cavanna et al., The baryon density of the universe from an improved rate of deuterium burning. Nature 587, 210–213 (2020)
V.S. Abramov, Active nanoobjects, neutrino and Higgs Boson in a fractal models of the universe, in 12th Chaotic Modeling and Simulation International Conference, Springer Proceedings in Complexity, ed. by C.H. Skiadas, Y. Dimotikalis (Springer Nature Switzerland AG, 2020), pp. 1–14
V.S. Abramov, Active femto- and nano-objects in relation to the solar and interstellar winds in anisotropic models. Bull. Russ. Acad. Sci. Phys. 84(12), 1505–1510 (2020)
V. Abramov, Super-nonradiative states in fractal quantum systems, in XIII International Workshop on Quantum Optics (IWQO-2019). EPJ Web Conf. 220, 2 (2019)
V.S. Abramov, Supernonradiative states, neutrino and Higgs Boson in fractal quantum systems. Bull. Russ. Acad. Sci. Phys. 84(3), 284–288 (2020)
V.S. Abramov, Black holes, relativisnic jets, coronal holes in the sun, active microobjects in fractal models. Bull. Donetsk Nat. Univ. A 3, 7–21 (2021)
M. Espinasse, S. Corbel, P. Kaare et.al., Relativistic X-ray jets from the black hole X-ray binary MAXI J1820+070. arXiv:2004.06416v1 [astro-ph.HE], 14 Apr 2020, p. 10
V.S. Abramov, Anisotropic model and transient signals from binary cosmological objects: black holes, neutron stars. Bull. Donetsk Nat. Univ. A 1, 55–68 (2018)
T. Williams, R.W. Walsh, A.R. Winebarger et al., Is the high-resolution coronal imager resolving coronal strands? Results from AR 12712. Astrophys. J. 892(134), 13 (2020)
O.P. Abramova, A.V. Abramov, Effect of ordering of displacement fields operators of separate quantum dots, elliptical cylinders on the deformation field of coupled fractal structures, in 11th Chaotic Modeling and Simulation International Conference, Springer Proceedings in Complexity, ed. by C.H. Skiadas, I. Lubashevsky (Springer Nature Switzerland, AG, 2019), pp. 15–26
O.P. Abramova, A.V. Abramov, Coupled fractal structures with elements of cylindrical type, in 12th Chaotic Modeling and Simulation International Conference, Springer Proceedings in Complexity, ed. by C.H. Skiadas, Y. Dimotikalis (Springer Nature Switzerland, AG, 2020), pp. 15–26
O.P. Abramova, A.V. Abramov, Qubits and fractal structures with elements of the cylindrical type, in 13th Chaotic Modeling and Simulation International Conference, Springer Proceedings in Complexity, ed. by C.H. Skiadas, Y. Dimotikalis (Springer Nature Switzerland, AG, 2021), pp. 15–28
S. Weinberg, The Quantum Theory of Fields, vol. 2. Modern Applications (Cambridge University Press, 2001)
S.V. Vonsovsky, Magnetism of Microparticles (Nauka, Moscow, 1973)
K.S. Thorne, Black holes and time folds: Einstein’s outrageous legacy (W.W. Norton & Company, New York, 1994)
V.S. Abramov, Higgs Boson and Higgs Field in fractal models of the universe: active femtoobjects, new Hubble constants, solar wind, heliopause, in 13th Chaotic Modeling and Simulation International Conference, Springer Proceedings in Complexity, ed. by C.H. Skiadas, Y. Dimotikalis (Springer Nature Switzerland, AG, 2021), pp. 1–14
A. Crivellin, Y. Fang, O. Fischer et. al., Accumulating evidence for the associate production of a neutral scalar with mass around 151 GeV. arXiv:2109.02650v1 [hep-ph] 6 Sep 2021, p. 7
B.P. Abbott et al., Observation of gravitational waves from a binary neutron star inspiral. Phys. Rev. Lett. 119(161101), 1–18 (2017)
S. Carroll, The Particle at the End of the Universe (Dutton, New York, 2012)
R.M. Barnett et al., Review of particle physics. Phys. Rev. D 54, 1 (1996)
F.J. Yndurain, Quantum Chromodynamics. An Introduction to the Theory of Quarcs and Gluons (Springer, New York, 1983)
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Abramov, V.S. (2023). Active Objects and the Higgs Field in the Quark-Gluon Model of Fractal Systems. In: Skiadas, C.H., Dimotikalis, Y. (eds) 15th Chaotic Modeling and Simulation International Conference. CHAOS 2022. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-031-27082-6_1
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