Donmez, Orhan2019-08-012019-08-0120070217-7323https://dx.doi.org/10.1142/S021773230702138Xhttps://hdl.handle.net/11480/5417The shocked wave created on the accretion disk after different physical phenomena (accretion flows with pressure gradients, star-disk interaction etc.) may be responsible observed (quasi Periodic Oscillations (QPOs) in X-ray binaries. We present the set of characteristics frequencies associated with accretion disk around the rotating and nonrotating black holes for one particle case. These persistent frequencies are results of the rotating pattern in an accretion disk. We compare the frequency's from two different numerical results for fluid flow around the non-rotating black hole with one particle case. The numerical results are taken from Refs.1 and 2 using fully general relativistic hydrodynamical code with non-selfgravitating disk. While the first numerical result has a relativistic tori around the black hole, the second one includes one-armed spiral shock wave produced from star-disk interaction. Some physical modes presented in the QPOs can be excited in numerical simulation of relativistic tori and spiral waves on the accretion disk. The results of these different dynamical structures on the accretion disk responsible for QPOs are discussed in detail.eninfo:eu-repo/semantics/closedAccessblack holeaccretion diskx-raysQPOsfrequenciesArticle22214115710.1142/S021773230702138X2-s2.0-33846415428Q2WOS:000250970700006Q2