scholarly journals Mass and decay constant of I=1/2 scalar meson in QCD sum rule

2005 ◽  
Vol 619 (1-2) ◽  
pp. 105-114 ◽  
Author(s):  
Dong-Sheng Du ◽  
Jing-Wu Li ◽  
Mao-Zhi Yang
Keyword(s):  
Decay Constant ◽  
Scalar Meson ◽  
Sum Rule

scholarly journals TESTING THE STRUCTURE OF THE SCALAR MESON $K_0^*(1430)$ IN $\tau\to K_0^*(1430)\nu$ DECAY

2006 ◽  
Vol 21 (20) ◽  
pp. 1625-1628 ◽  
Author(s):  
MAO-ZHI YANG
Keyword(s):  
Production Rate ◽  
Decay Constant ◽  
Scalar Meson ◽  
Branching Ratio ◽  
Bound State ◽  
Sum Rule

The decay constant of [Formula: see text] is the key quantity to determine the production rate of [Formula: see text] in τ decays. By assuming [Formula: see text] is the lowest scalar bound state of [Formula: see text], the decay constant can be calculated reliably in QCD sum rule. Then the decay branching ratio of [Formula: see text] is predicted to be about (7.9±3.1)×10-5. If this branching ratio can be measured by experiment, it should be helpful to make clear the structure of [Formula: see text].

Mass of the Scalar Meson kappa within a QCD Sum Rule

2010 ◽  
Vol 60 (6) ◽  
pp. 648-652
Author(s):  
Hee Jung LEE*
Keyword(s):  
Scalar Meson ◽  
Sum Rule

Mass, width, and decay constant of the first pion-excitation: a QCD sum rule approach

1998 ◽  
Author(s):  
V. Elias ◽  
A. H. Fariborz ◽  
M. A. Samuel ◽  
Fang Shi ◽  
T. G. Steele
Keyword(s):  
Decay Constant ◽  
Sum Rule ◽  
Rule Approach

Remarks on broken chiral SU(5) × SU(5) symmetry and B mesons

1985 ◽  
Vol 63 (10) ◽  
pp. 1294-1298
Author(s):  
D. Y. Kim ◽  
S. N. Sinha
Keyword(s):  
B Mesons ◽  
Decay Constant ◽  
B Meson ◽  
Weak Decay ◽  
Sum Rule ◽  
Decay Constants ◽  
Symmetry Approach ◽  
Rule Model ◽  
Pseudoscalar Mesons ◽  
The Masses

In a recent paper, Hatzis has estimated the masses and weak decay constants of b-flavored pseudoscalar mesons in a broken chiral SU(5) × SU(5) symmetry method. The estimated weak decay constant of B meson, [Formula: see text], however, does not agree with the value [Formula: see text] evaluated by Mathur et al. with the quantum chromodynamics (QCD) sum-rule model. We re-examined the problem applying the broken chiral SU(5) × SU(5) symmetry approach using a set of mass formulae. With this method we estimate the symmetry-breaking parameters and decay constants of pseudoscalar mesons. We found a consistent result for the decay constant: [Formula: see text]. The explicit numerical value of these constants, however, are lower than that of the QCD sum rule. This may be due to the limited validity of the broken chiral symmetry approach for heavy mesons.

scholarly journals QCD sum rule study of a charged bottom-strange scalar meson

2016 ◽  
Vol 93 (9) ◽  
Author(s):  
C. M. Zanetti ◽  
M. Nielsen ◽  
K. P. Khemchandani
Keyword(s):  
Scalar Meson ◽  
Sum Rule

Effect of nickel(II) on the biomass yield of the activated sludge

1996 ◽  
Vol 34 (5-6) ◽  
pp. 163-171 ◽  
Author(s):  
Celal F. Gökçay ◽  
Ulku Yetis
Keyword(s):  
Activated Sludge ◽  
Decay Constant ◽  
Biomass Yield ◽  
Culture Conditions ◽  
Synthetic Wastewater ◽  
Base Line ◽  
Microbial Culture ◽  
Feed Composition ◽  
Steady State Condition ◽  
Applied Microbiology

Biomass yield of microorganisms is important in applied microbiology since it is the ultimate factor determining the amount of product produced regardless of whether product is growth-linked or not. In the case of environmental microbiology the opposite is true and minimizing the biomass produced, or the sludge in the relevant jargon, often is the prime goal. In this paper, a unique means of manipulating the microbial biomass yield of a heterogeneous culture to fulfil either of the two goals is presented. 5.0 mgl−1 Ni(II) in the feed composition to a completely mixed, once- through, activated sludge was found to induce the observed biomass yield of the microbial culture developed from sewage. As compared with the base-line study without Ni(II), where the reactor received synthetic wastewater only, true biomass yield was found to have increased along with the increased decay constant with the net effect of lowering observed biomass yield drastically at lower dilution rates and increasing it over that observed in the base-line study at higher dilution rates. At 10.0 mgl−1 influent Ni(II) concentration the culture conditions almost reverted back to the base- line study and at 25 mgl−1 Ni(II) concentration a truly steady-state condition could not be attained.

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