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Dependence of Single Bubble Sonoluminescence Radiation to Host Liquid, Acoustic Pressure and Noble Gas
By using a hydrochemical simulation, the effect of host liquid, acoustic pressure and noble gas on the parameters in water for the single bubble Sonoluminescence, N-methylformamide and Sulfuric Acid with 65 wt %, is described. The results show, with the viscosity increment of the host liquid, the SL temperature and intensity are increased. Furthermore, numerical calculation shows that, increase in the amplitude of the driving pressure from 1.3 to 1.45 atm and increase in the atomic mass of the noble gas from Ar to Xe in N-methylformamide leads to increase in the bubble intensity by about one and two order of magnitude, respectively. The results are in excellent agreement with the experimental measurements.
Keywords
Bremsstrahlung Radiation, Hydrochemical Simulation, Single Bubble Sonoluminescence
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