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TMF, 2001, Volume 126, Number 2, Pages 247–257 (Mi tmf1924)  

This article is cited in 10 scientific papers (total in 10 papers)

Glueballs in the string quark model

L. D. Solov'ev

Institute for High Energy Physics

Abstract: We show that the eigenstates of the quantized simplest closed (elliptic) Nambu–Goto string interpreted as glueballs have the quantum numbers $I^Gj^{PC}=0^+j^{++}$. The lightest glueballs have the spins $j=0,1,2$ and the same mass $1500\pm20$MeV, which corresponds to the $f_0(1500)$, $f_1(1510)$, and $f_2(1565)$ mesons. Excitation of higher Fourier modes leads to the glueball with $j=0$ and the mass $2200\pm30$MeV corresponding to the $f_0(2200)$ meson. The next glueballs have $j=0,1,2,3,4$ with the masses $2610\pm20$MeV. The slope of the glueball Regge trajectories is half the slope for the quark-antiquark mesons. The leading (Pomeron) glueball trajectory has the value $1.07\pm0.03$ at zero transferred momentum.

DOI: https://doi.org/10.4213/tmf1924

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English version:
Theoretical and Mathematical Physics, 2001, 126:2, 203–211

Bibliographic databases:

Received: 23.06.2000

Citation: L. D. Solov'ev, “Glueballs in the string quark model”, TMF, 126:2 (2001), 247–257; Theoret. and Math. Phys., 126:2 (2001), 203–211

Citation in format AMSBIB
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\paper Glueballs in the string quark model
\jour TMF
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\pages 247--257
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\crossref{https://doi.org/10.4213/tmf1924}
\zmath{https://zbmath.org/?q=an:0993.81045}
\transl
\jour Theoret. and Math. Phys.
\yr 2001
\vol 126
\issue 2
\pages 203--211
\crossref{https://doi.org/10.1023/A:1005247811456}
\isi{http://gateway.isiknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&DestLinkType=FullRecord&DestApp=ALL_WOS&KeyUT=000170245600007}


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    Citing articles on Google Scholar: Russian citations, English citations
    Related articles on Google Scholar: Russian articles, English articles

    This publication is cited in the following articles:
    1. Llanes-Estrada, FJ, “QCD glueball Regge trajectory and the pomeron”, Nuclear Physics A, 710:1–2 (2002), 45  crossref  adsnasa  isi  scopus  scopus
    2. Petrov, VA, “The first three pomerons”, European Physical Journal C, 23:1 (2002), 135  crossref  adsnasa  isi  scopus  scopus
    3. L. D. Solov'ev, “Multimode Relativistic String: Classical Solutions and Quantization”, Theoret. and Math. Phys., 136:3 (2003), 1225–1250  mathnet  crossref  crossref  mathscinet  isi
    4. Titov, AI, “Spin effects and baryon resonance dynamics in phi-meson photoproduction at few GeV”, Physical Review C, 67:6 (2003), 065205  crossref  mathscinet  adsnasa  isi  scopus  scopus
    5. Sharov, GS, “Glueball string models, rotational states, and Regge trajectories”, Physics of Atomic Nuclei, 71:3 (2008), 574  crossref  adsnasa  isi
    6. Sharov, GS, “Unstable rotational states of string models and width of a hadron”, Physical Review D, 79:11 (2009), 114025  crossref  adsnasa  isi  elib  scopus  scopus
    7. Ganbold, G, “Glueballs and mesons: The ground states”, Physical Review D, 79:3 (2009), 034034  crossref  adsnasa  isi  elib  scopus  scopus
    8. Ganbold G., “Two-particle Bound States: Mesons and Glueballs”, 19th International Iupap Conference on Few-Body Problems in Physics, EPJ Web of Conferences, 3, 2009  isi
    9. Ganbold G., “Hadron Spectrum and Infrared-Finite Behavior of QCD Running Coupling”, Phys. Part. Nuclei, 43:1 (2012), 79–105  crossref  isi  elib  scopus  scopus
    10. Sonnenschein J., Weissman D., “Glueballs as Rotating Folded Closed Strings”, J. High Energy Phys., 2015, no. 12, 011  crossref  mathscinet  isi  scopus  scopus
  • Теоретическая и математическая физика Theoretical and Mathematical Physics
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