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Articoli di riviste sul tema "Quantum chromodynamics"

Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 25 luglio 2025

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1

't Hooft, G. "Quantum chromodynamics." Annalen der Physik 512, no. 11-12 (2000): 925–26. http://dx.doi.org/10.1002/andp.200051211-1210.

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2

Llewellyn Smith, C. H. "Quantum chromodynamics." Contemporary Physics 29, no. 4 (1988): 407–9. http://dx.doi.org/10.1080/00107518808213767.

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3

't Hooft, G. "Quantum chromodynamics." Annalen der Physik 9, no. 11-12 (2000): 925–26. http://dx.doi.org/10.1002/1521-3889(200011)9:11/12<925::aid-andp925>3.0.co;2-s.

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4

Cahill, RT. "On the Importance of Self-interaction in QCD." Australian Journal of Physics 44, no. 3 (1991): 105. http://dx.doi.org/10.1071/ph910105.

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Abstract (sommario):
The electromagnetic self-energy of charged particles has remained a problem in classical as well as in quantum electrodynamics. In contrast here, in a review of the analysis of the chromodynamic self-energy of quarks in quantum chromodynamics (QCD), we see that the quark self-energy is a finite and a dominant effect in determining the structure of hadrons.
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5

Chanyal, B. C., P. S. Bisht, Tianjun Li, and O. P. S. Negi. "Octonion Quantum Chromodynamics." International Journal of Theoretical Physics 51, no. 11 (2012): 3410–22. http://dx.doi.org/10.1007/s10773-012-1222-7.

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6

Ioffe, B. L. "Condensates in quantum chromodynamics." Physics of Atomic Nuclei 66, no. 1 (2003): 30–43. http://dx.doi.org/10.1134/1.1540654.

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7

BROWER, RICHARD C., YUE SHEN, and CHUNG-I. TAN. "CHIRALLY EXTENDED QUANTUM CHROMODYNAMICS." International Journal of Modern Physics C 06, no. 05 (1995): 725–42. http://dx.doi.org/10.1142/s0129183195000599.

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We propose an extended Quantum Chromodynamics (XQCD) Lagrangian in which the fermions are coupled to elementary scalar fields through a Yukawa coupling which preserves chiral invariance. Our principle motivation is to find a new lattice formulation for QCD which avoids the source of critical slowing down usually encountered as the bare quark mass is tuned to the chiral limit. The phase diagram and the weak coupling limit for XQCD are studied. They suggest a conjecture that the continuum limit of XQCD is the same as the continuum limit of conventional lattice formulation of QCD. As examples of
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8

Close, Frank. "Confirmation for quantum chromodynamics." Nature 353, no. 6344 (1991): 498–99. http://dx.doi.org/10.1038/353498a0.

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9

Vranas, P., M. A. Blumrich, D. Chen, et al. "Massively parallel quantum chromodynamics." IBM Journal of Research and Development 52, no. 1.2 (2008): 189–97. http://dx.doi.org/10.1147/rd.521.0189.

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10

Bakker, B. L. G., A. Bassetto, S. J. Brodsky, et al. "Light-front quantum chromodynamics." Nuclear Physics B - Proceedings Supplements 251-252 (June 2014): 165–74. http://dx.doi.org/10.1016/j.nuclphysbps.2014.05.004.

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11

BUTTERWORTH, JON M. "QUANTUM CHROMODYNAMICS AT COLLIDERS." International Journal of Modern Physics A 21, no. 08n09 (2006): 1792–804. http://dx.doi.org/10.1142/s0217751x06032769.

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QCD is the accepted (that is, the effective) theory of the strong interaction; studies at colliders are no longer designed to establish this. Such studies can now be divided into two categories. The first involves the identification of observables which can be both measured and predicted at the level of a few percent. Such studies parallel those of the electroweak sector over the past fifteen years, and deviations from expectations would be a sign of new physics. These observables provide a firm "place to stand" from which to extend our understanding. This links to the second category of study
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12

CORNWALL, JOHN M. "ENTROPY IN QUANTUM CHROMODYNAMICS." Modern Physics Letters A 27, no. 09 (2012): 1230011. http://dx.doi.org/10.1142/s021773231230011x.

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We review the role of zero-temperature entropy in several closely-related contexts in QCD. The first is entropy associated with disordered condensates, including [Formula: see text]. The second is effective vacuum entropy arising from QCD solitons such as center vortices, yielding confinement and chiral symmetry breaking. The third is entanglement entropy, which is entropy associated with a pure state, such as the QCD vacuum, when the state is partially unobserved and unknown. Typically, entanglement entropy of an unobserved three-volume scales not with the volume but with the area of its boun
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13

Brower, Richard C. "Chirally extended quantum chromodynamics." Nuclear Physics B - Proceedings Supplements 34 (April 1994): 210–12. http://dx.doi.org/10.1016/0920-5632(94)90347-6.

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14

SISSAKIAN, A. N., I. L. SOLOVTSOV та O. P. SOLOVTSOVA. "NONPERTURBATIVE β-FUNCTION IN QUANTUM CHROMODYNAMICS". Modern Physics Letters A 09, № 26 (1994): 2437–43. http://dx.doi.org/10.1142/s0217732394002318.

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Abstract (sommario):
We propose a method by which it is possible to go beyond the scope of quantum chromodynamics perturbation theory. By using a new small parameter we formulate a systematic nonperturbative expansion and derive a renormalization β-function in quantum chromodynamics.
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15

Efimov, G. V. "Stability of Quantum Electrodynamics and Quantum Chromodynamics." Theoretical and Mathematical Physics 141, no. 1 (2004): 1398–414. http://dx.doi.org/10.1023/b:tamp.0000043856.41940.3c.

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16

Dremin, Igor M. "Quantum chromodynamics and multiplicity distributions." Uspekhi Fizicheskih Nauk 164, no. 8 (1994): 785. http://dx.doi.org/10.3367/ufnr.0164.199408a.0785.

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17

Kozlov, Mikhail G., Alexey V. Reznichenko, and Victor S. Fadin. "Quantum chromodynamics at high energies." Siberian Journal of Physics 2, no. 4 (2007): 3–31. http://dx.doi.org/10.54238/1818-7994-2007-2-4-3-31.

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18

Kronfeld, A. S. "Quantum chromodynamics with advanced computing." Journal of Physics: Conference Series 125 (July 1, 2008): 012067. http://dx.doi.org/10.1088/1742-6596/125/1/012067.

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19

Horsley, Roger, and Wim Schoenmaker. "Transport Coefficients of Quantum Chromodynamics." Physical Review Letters 57, no. 23 (1986): 2894–96. http://dx.doi.org/10.1103/physrevlett.57.2894.

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20

Dremin, Igor M. "Multiparticle production and quantum chromodynamics." Physics-Uspekhi 45, no. 5 (2002): 507–25. http://dx.doi.org/10.1070/pu2002v045n05abeh001088.

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21

Iwasaki, Yoichi, Kazuyuki Kanaya, Shogo Kaya, Sunao Sakai, and Tomoteru Yoshié. "Quantum Chromodynamics with Many Flavors." Progress of Theoretical Physics Supplement 131 (1998): 415–26. http://dx.doi.org/10.1143/ptps.131.415.

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22

Meyer-Ortmanns, Hildegard. "Phase transitions in quantum chromodynamics." Reviews of Modern Physics 68, no. 2 (1996): 473–598. http://dx.doi.org/10.1103/revmodphys.68.473.

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23

Mateos, David. "String theory and quantum chromodynamics." Classical and Quantum Gravity 24, no. 21 (2007): S713—S739. http://dx.doi.org/10.1088/0264-9381/24/21/s01.

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24

Fritzsch, H. "The history of quantum chromodynamics." International Journal of Modern Physics A 34, no. 01 (2019): 1930001. http://dx.doi.org/10.1142/s0217751x19300011.

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25

Dremin, Igor M. "Multiparticle production and quantum chromodynamics." Uspekhi Fizicheskih Nauk 172, no. 5 (2002): 551. http://dx.doi.org/10.3367/ufnr.0172.200205b.0551.

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26

Gupta, Suraj N., and Stanley F. Radford. "Quark confinement in quantum chromodynamics." Physical Review D 32, no. 3 (1985): 781–83. http://dx.doi.org/10.1103/physrevd.32.781.

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27

Larsson, Tomas I. "Nonperturbative propagators in quantum chromodynamics." Physical Review D 32, no. 4 (1985): 956–61. http://dx.doi.org/10.1103/physrevd.32.956.

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28

Dremin, Igor M. "Quantum chromodynamics and multiplicity distributions." Physics-Uspekhi 37, no. 8 (1994): 715–36. http://dx.doi.org/10.1070/pu1994v037n08abeh000037.

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29

Sisakyan, A. N. "Variational expansions in quantum chromodynamics." Physics of Particles and Nuclei 30, no. 5 (1999): 461. http://dx.doi.org/10.1134/1.953115.

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30

Bazavov, Alexei, and Johannes Heinrich Weber. "Color screening in quantum chromodynamics." Progress in Particle and Nuclear Physics 116 (January 2021): 103823. http://dx.doi.org/10.1016/j.ppnp.2020.103823.

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31

Rapuano, F. "Quantum Chromodynamics on the lattice." Nuclear Physics A 623, no. 1-2 (1997): 81–89. http://dx.doi.org/10.1016/s0375-9474(97)00425-9.

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32

Bowler, Kenneth C., and Anthony J. G. Hey. "Parallel computing and quantum chromodynamics." Parallel Computing 25, no. 13-14 (1999): 2111–34. http://dx.doi.org/10.1016/s0167-8191(99)00081-2.

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33

Belyaev, V. M., and B. Yu Blok. "Charmed baryons in quantum chromodynamics." Zeitschrift für Physik C Particles and Fields 30, no. 1 (1986): 151–56. http://dx.doi.org/10.1007/bf01560689.

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34

Sridhar, K., Sunanda Banerjee, Swagato Banerjee, et al. "Quantum chromodynamics: Working group report." Pramana 51, no. 1-2 (1998): 297–304. http://dx.doi.org/10.1007/bf02827499.

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35

Andrianov, A. A., V. A. Andrianov, V. Yu Novozhilov, and Yu V. Novozhilov. "Chiral bag in quantum chromodynamics." Theoretical and Mathematical Physics 74, no. 1 (1988): 99–101. http://dx.doi.org/10.1007/bf01018217.

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36

Dosch, H. G. "Nonperturbative methods in quantum chromodynamics." Progress in Particle and Nuclear Physics 33 (January 1994): 121–99. http://dx.doi.org/10.1016/0146-6410(94)90044-2.

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37

Banerjee, Sunanda. "Quantum chromodynamics studies at LEP2." Pramana 55, no. 1-2 (2000): 85–100. http://dx.doi.org/10.1007/s12043-000-0086-1.

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38

Gupta, Sourendu, D. Indumathi, S. Banerjee, et al. "Quantum chromodynamics: Working group report." Pramana 55, no. 1-2 (2000): 327–33. http://dx.doi.org/10.1007/s12043-000-0112-3.

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39

Del Duca, Vittorio. "Quantum chromodynamics at hadron colliders." Pramana 67, no. 5 (2006): 861–73. http://dx.doi.org/10.1007/s12043-006-0098-6.

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40

Ravindran, V., Pankaj Agrawal, Rahul Basu, et al. "Working group report: Quantum chromodynamics." Pramana 67, no. 5 (2006): 983–92. http://dx.doi.org/10.1007/s12043-006-0107-9.

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41

SHIFMAN, M. "PERSISTENT CHALLENGES OF QUANTUM CHROMODYNAMICS." International Journal of Modern Physics A 21, no. 28n29 (2006): 5695–719. http://dx.doi.org/10.1142/s0217751x06034914.

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Abstract (sommario):
Unlike some models whose relevance to Nature is still a big question mark, Quantum Chromodynamics (QCD) will stay with us forever. QCD, born in 1973, is a very rich theory supposed to describe the widest range of strong interaction phenomena: from nuclear physics to Regge behavior at large E, from color confinement to quark–gluon matter at high densities/temperatures (neutron stars); the vast horizons of the hadronic world: chiral dynamics, glueballs, exotics, light and heavy quarkonia and mixtures thereof, exclusive and inclusive phenomena, interplay between strong forces and weak interaction
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42

NISHIJIMA, KAZUHIKO, and IZURU DEMIZU. "RENORMALIZATION CONSTANTS IN QUANTUM CHROMODYNAMICS." International Journal of Modern Physics A 13, no. 09 (1998): 1507–13. http://dx.doi.org/10.1142/s0217751x98000664.

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Abstract (sommario):
The gauge dependence of the renormalization constant of the quark field has been studied with the help of the renormalization group method. In the case of the color gauge field an exact evaluation of the renormalization constant is feasible because of the presence of a sum rule, but in the absence of the corresponding sum rule, only a qualitative evaluation is possible for the quark field.
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43

Luo, Xiang-Qian, Qizhou Chen, Shouhong Guo, Xiyan Fang, and Jinming Liu. "Glueball masses in quantum chromodynamics." Nuclear Physics B - Proceedings Supplements 53, no. 1-3 (1997): 243–45. http://dx.doi.org/10.1016/s0920-5632(96)00626-3.

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44

Gavai, Rajiv V. "Lattice quantum chromodynamics: Some topics." Pramana 61, no. 5 (2003): 889–99. http://dx.doi.org/10.1007/bf02704457.

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45

Forghan, B., and M. R. Tanhayi. "Krein regularization of quantum chromodynamics." Modern Physics Letters A 30, no. 26 (2015): 1550126. http://dx.doi.org/10.1142/s0217732315501266.

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Abstract (sommario):
In this paper, we use Krein regularization to study certain standard computations in quantum chromodynamics (QCD). In this method, the auxiliary modes[Formula: see text]— those with negative norms[Formula: see text]— are employed to calculate the quark self-energy, vacuum polarizations and vertex functions. We explicitly show that after making use of these modes and by taking into account the quantum metric fluctuation for the problems at hand, the conventional results can indeed be reproduced; but with the advantage of finite answers which require fewer mathematical procedures. An obvious mer
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46

Dokshitzer, Yuri L. "Quantum chromodynamics and hadron dynamics." Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 359, no. 1779 (2001): 309–24. http://dx.doi.org/10.1098/rsta.2000.0728.

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47

Forshaw, Jeffrey R., Douglas A. Ross, and Carl R. Schmidt. "Quantum Chromodynamics and the Pomeron." Physics Today 51, no. 10 (1998): 86–88. http://dx.doi.org/10.1063/1.882397.

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48

Bethke, S. "Experimental verifications of quantum chromodynamics." Modern Physics Letters A 34, no. 17 (2019): 1950225. http://dx.doi.org/10.1142/s0217732319502250.

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49

Huang, Tao, and Zheng Huang. "Quantum chromodynamics in background fields." Physical Review D 39, no. 4 (1989): 1213–20. http://dx.doi.org/10.1103/physrevd.39.1213.

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50

Mathews, Prakash, Rahul Basu, D. Indumathi, et al. "Working group report: Quantum chromodynamics." Pramana 63, no. 6 (2004): 1367–79. http://dx.doi.org/10.1007/bf02704902.

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