References
- Alhelfi A., Sunden B., The cavitation phenomenon: a literature survey, Advanced Computational Methods and Experiments in Heat Transfer XIII, 351, WIT Transactions on Engineering Sciences, 83, WIT Press (2014).
- Barbat T., Ashgriz N., Liu C.S., Dynamics of two interacting bubbles in an acoustic field, J. Fluid Mech., 389, 137-168 (1999).
- Dirac P.A.M., The Large numbers hypothesis and the Einstein theory of gravitation, Proc. R. Soc. London, Ser. A 365, 19-30 (1979).
- Eddington A.S., Preliminary Note on the Masses of the Electron, the Proton, and the Universe, Mathematical Proceedings of the Cambridge Philosophical Society, 27, 1, 15-19 (1931).10.1017/S0305004100009269
- Ibison M., Electrodynamics in the Zero-Point Field: On the equilibrium spectral energy distribution and the origin of inertial mass, Found. Phys. Lett., 16, 1, 83-90 (2003).
- Ibison M., Gravity emerging from direct-action EM in a toy universe of electrons and positrons, arXiv:0704.3779v2 (2007).
- Ida M., Number of Transition Frequencies of a System Containing an Arbitrary Number of Gas Bubbles, J. Phys. Soc. Jpn., 71, 1214-1217 (2002).
- Manasseh R., Ooi A., Frequencies of acoustically interacting bubbles, Bubble Science, Engineering and Technology, 1, 1-2, 58-74 (2009).10.1179/175889709X446552
- Mettin R., From a single bubble to bubble structures in acoustic cavitation, Oscillations, Waves and Interactions: Sixty Years Drittes Physikalisches Institut; a Festschrift, Thomas Kurz (Edit.), Universitätsverlag Göttingen, 171-198 (2007).
- Ooi A., Manasseh R., Coupled nonlinear oscillations of microbubbles, Anziam J., 46, C102-C116 (2005).10.21914/anziamj.v46i0.950
- Sciama D., On the origin of inertia, Mon. Not. Roy. Astrom. Soc., 113, 34-42 (1953).
- Simaciu I., Borsos Z., Baciu A., Nan G., The Acoustic World: Mechanical Inertia of Waves, Bul. Inst. Polit. Iaşi, s. Mat., Mec. Teor., Fiz., 62 (66), 4, 52-63 (2016).
- Simaciu I., Borsos Z., Dumitrescu Gh., Deviation of the waves in an inhomogeneous medium, Bul. Inst. Polit. Iaşi, s. Mat., Mec. Teor., Fiz., 66 (70), 2, 17-25 (2020), arXiv:1810.07029 (2018c).
- Simaciu I., Borsos Z., Dumitrescu Gh., Silva G.T., Bărbat T., The acoustic force of electrostatic type, Bul. Inst. Polit. Iaşi, Secţ. Mat., Mec. Teor., Fiz., 65 (69), 2, 15-28 (2019a).
- Simaciu I., Dumitrescu Gh., Borsos Z., Brădac M., Interactions in an Acoustic World: Dumb Hole, Adv. High Energy Phys., Vol. 2018, article ID 7265362 (2018a).10.1155/2018/7265362
- Simaciu I., Dumitrescu Gh., Borsos Z., Acoustic force of the gravitational type, arXiv:1905.03622 (2019b).
- Simaciu I., Dumitrescu Gh., Borsos Z., Acoustic lens associated with a radial oscillating bubble, Bul. Inst. Polit. Iaşi, s. Mat., Mec. Teor., Fiz., 66 (70), 2, 9-15, 2020, arXiv:1811.08738 (2018b).
- Simaciu I., Moșescu N., Generalized Mach’s Principle, Buletinul de Fizică și Chimie, 11, 225-227 (1987).
- Wang Cheng-Hui, Cheng Jian-Chun, Interaction of a bubble and a bubble cluster in an ultrasonic field, Chin. Phys. B, 22, 1, 014304 (2013).
- Yasui K., Towata A., Tuziuti T., Kozuka T., Kato K., Effect of static pressure on acoustic energy radiated by cavitation bubbles in viscous liquids under ultrasound, J. Acoust. Soc. Am., 130, 5, 3233-3242 (2011).