Abstract
With the construction of the Witten–Sakai–Sugimoto model in the D0–D4 background, we systematically investigate the holographic baryon spectrum in the case of three flavors. The background geometry in this model is holographically dual to Uleft( N_{c}right) Yang–Mills theory in large N_{c} limit involving an excited state with a nonzero theta angle or glue condensate leftlangle mathrm {Tr}mathcal {F}wedge mathcal {F}rightrangle =8pi ^{2}N_{c}tilde{kappa }, which is proportional to the charge density of the smeared D0-branes through a parameter b or tilde{kappa }. The classical solution of baryon in this model can be modified by embedding the Belavin–Polyakov–Schwarz–Tyupkin instanton and we carry out the quantization of the collective modes with this solution. Then we extend the analysis to include the heavy flavor and find that the heavy meson is always bound in the form of the zero mode of the flavor instanton in strong coupling limit. The mass spectrum of heavy-light baryons in the situation with single- and double-heavy baryon is derived by solving the eigen equation of the quantized collective Hamiltonian. Afterwards we obtain that the constraint of stable baryon states has to be 1<b<3 and the difference in the baryon spectrum becomes smaller as the D0 charge increases. It indicates that quarks or mesons can not form stable baryons if the theta angle or glue condensate is sufficiently large. Our work is an extension of the previous study of this model and also agrees with those conclusions.
Highlights
We have investigated the baryon spectrum in the Witten–Sakai–Sugimoto model with the D0–D4 background in the situation of three flavors
The baryon states are created by the baryon vertex which could be treated as the instanton configuration of the gauge fields on the flavor branes, so we study the quantization of the collective modes with the instanton solution
By employing the mechanism proposed in [68,69,70], the heavy flavor is introduced by embedding an extra pair of flavor branes which is separated from the other coincident flavor branes with a string stretched between them
Summary
We will briefly review the D0–D4 background and its dual field theory by following [55,56]. In Einstein frame, the IIA supergravity solution of black coincident Nc D4-branes with N0 smeared D0-branes is given as, ds. Τ represents the compactified direction on a cycle with the period β. The dilaton, Ramond–Ramond 2and 4-form are given as, e−
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