Logarithmic correction in the deformed AdS{sub 5} model to produce the heavy quark potential and QCD beta function

We study the holographic QCD model, which contains a quadratic term -{sigma}z{sup 2} and a logarithmic term -c{sub 0}log[(z{sub IR}-z)/z{sub IR}] with an explicit infrared cutoff z{sub IR} in the deformed AdS{sub 5} warp factor. We investigate the heavy-quark potential for three cases, i.e., with on...

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Veröffentlicht in:	Physical review. D, Particles and fields Particles and fields, 2011-02, Vol.83 (4)
Hauptverfasser:	He Song, Huang Mei, Theoretical Physics Center for Science Facilities, Chinese Academy of Sciences, Beijing, Yan Qishu, College of Physical Sciences, Graduate University of Chinese Academy of Sciences, Beijing
Format:	Artikel
Sprache:	eng
Schlagworte:	ANTI DE SITTER SPACE B QUARKS BEAUTY PARTICLES C QUARKS CHARM PARTICLES CORRECTIONS EINSTEIN FIELD EQUATIONS ELEMENTARY PARTICLES EQUATIONS FERMIONS FIELD EQUATIONS FIELD THEORIES HOLOGRAPHY MATHEMATICAL SPACE PHYSICS OF ELEMENTARY PARTICLES AND FIELDS POSTULATED PARTICLES QUANTUM CHROMODYNAMICS QUANTUM FIELD THEORY QUARKS SIMULATION SPACE T QUARKS TOP PARTICLES
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creator	He Song Huang Mei Theoretical Physics Center for Science Facilities, Chinese Academy of Sciences, Beijing Yan Qishu College of Physical Sciences, Graduate University of Chinese Academy of Sciences, Beijing
description	We study the holographic QCD model, which contains a quadratic term -{sigma}z{sup 2} and a logarithmic term -c{sub 0}log[(z{sub IR}-z)/z{sub IR}] with an explicit infrared cutoff z{sub IR} in the deformed AdS{sub 5} warp factor. We investigate the heavy-quark potential for three cases, i.e., with only a quadratic correction, with both quadratic and logarithmic corrections, and with only a logarithmic correction. We solve the dilaton field and dilation potential from the Einstein equation and investigate the corresponding beta function in the Guersoy-Kiritsis-Nitti framework. Our studies show that in the case with only a quadratic correction, a negative {sigma} or the Andreev-Zakharov model is favored to fit the heavy-quark potential and to produce the QCD beta function at 2-loop level; however, the dilaton potential is unbounded in the infrared regime. One interesting observation for the case of positive {sigma} is that the corresponding beta function exists in an infrared fixed point. In the case with only a logarithmic correction, the heavy-quark Cornell potential can be fitted very well, the corresponding beta function agrees with the QCD beta function at 2-loop level reasonably well, and the dilaton potential is bounded from below in the infrared. At the end, we propose a more compact model which has only a logarithmic correction in the deformed warp factor and has less free parameters.
doi_str_mv	10.1103/PHYSREVD.83.045034
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We investigate the heavy-quark potential for three cases, i.e., with only a quadratic correction, with both quadratic and logarithmic corrections, and with only a logarithmic correction. We solve the dilaton field and dilation potential from the Einstein equation and investigate the corresponding beta function in the Guersoy-Kiritsis-Nitti framework. Our studies show that in the case with only a quadratic correction, a negative {sigma} or the Andreev-Zakharov model is favored to fit the heavy-quark potential and to produce the QCD beta function at 2-loop level; however, the dilaton potential is unbounded in the infrared regime. One interesting observation for the case of positive {sigma} is that the corresponding beta function exists in an infrared fixed point. 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D, Particles and fields</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>He Song</au><au>Huang Mei</au><au>Theoretical Physics Center for Science Facilities, Chinese Academy of Sciences, Beijing</au><au>Yan Qishu</au><au>College of Physical Sciences, Graduate University of Chinese Academy of Sciences, Beijing</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Logarithmic correction in the deformed AdS{sub 5} model to produce the heavy quark potential and QCD beta function</atitle><jtitle>Physical review. D, Particles and fields</jtitle><date>2011-02-25</date><risdate>2011</risdate><volume>83</volume><issue>4</issue><issn>0556-2821</issn><eissn>1089-4918</eissn><abstract>We study the holographic QCD model, which contains a quadratic term -{sigma}z{sup 2} and a logarithmic term -c{sub 0}log[(z{sub IR}-z)/z{sub IR}] with an explicit infrared cutoff z{sub IR} in the deformed AdS{sub 5} warp factor. We investigate the heavy-quark potential for three cases, i.e., with only a quadratic correction, with both quadratic and logarithmic corrections, and with only a logarithmic correction. We solve the dilaton field and dilation potential from the Einstein equation and investigate the corresponding beta function in the Guersoy-Kiritsis-Nitti framework. Our studies show that in the case with only a quadratic correction, a negative {sigma} or the Andreev-Zakharov model is favored to fit the heavy-quark potential and to produce the QCD beta function at 2-loop level; however, the dilaton potential is unbounded in the infrared regime. One interesting observation for the case of positive {sigma} is that the corresponding beta function exists in an infrared fixed point. In the case with only a logarithmic correction, the heavy-quark Cornell potential can be fitted very well, the corresponding beta function agrees with the QCD beta function at 2-loop level reasonably well, and the dilaton potential is bounded from below in the infrared. At the end, we propose a more compact model which has only a logarithmic correction in the deformed warp factor and has less free parameters.</abstract><cop>United States</cop><doi>10.1103/PHYSREVD.83.045034</doi></addata></record>
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subjects	ANTI DE SITTER SPACE B QUARKS BEAUTY PARTICLES C QUARKS CHARM PARTICLES CORRECTIONS EINSTEIN FIELD EQUATIONS ELEMENTARY PARTICLES EQUATIONS FERMIONS FIELD EQUATIONS FIELD THEORIES HOLOGRAPHY MATHEMATICAL SPACE PHYSICS OF ELEMENTARY PARTICLES AND FIELDS POSTULATED PARTICLES QUANTUM CHROMODYNAMICS QUANTUM FIELD THEORY QUARKS SIMULATION SPACE T QUARKS TOP PARTICLES
title	Logarithmic correction in the deformed AdS{sub 5} model to produce the heavy quark potential and QCD beta function
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