List of publications




SCIENTIFIC PAPERS:

49. S. Chirita, C. Gales, Wave propagation and attenuation in time in local thermal non-equilibrium triple porosity thermoelastic medium, Acta Mechanica, (accepted 2021).

48. L. Zhou, C. Lhotka, C. Gales, Y. Narita, L.Y. Zhou, Dynamics of charged dust in the orbit of Venus, Astronomy and Astrophysics, Volume 645, id.A63 (2021), 16 pp.

47. C. Gales, S. Chirita, Wave propagation in materials with double porosity, Mechanics of Materials, 149 (2020), Art. No. 103558.

46. J. Burgos-Garcia, A. Celletti, C. Gales, M. Gidea, Wai-Ting Lam, Hill four-body problem with oblate bodies: an application to the Sun-Jupiter-Hektor-Skamandrios system, Journal of Nonlinear Science , https://doi.org/10.1007/s00332-020-09640-x (16 July 2020).

45. A. Celletti, C. Gales, C. Lhotka, (INVITED) Resonances in the Earth's space environment, Communications in Nonlinear Science and Numerical Simulation , 84 (2020), Article Number: 105185.

44. C. Lhotka, C. Gales, Charged dust close to outer mean-motion resonances in the heliosphere, Celestial Mechanics and Dynamical Astronomy , 131(2019), Article Number: UNSP 49.

43. A. Celletti, C. Gales, (FEATURED ARTICLE) Dynamics of resonances and equilibria of Low Earth Objects, SIAM Journal on Applied Dynamical Systems , 17 (2018), 203-235.

42. A. Celletti, C. Efthymiopoulos, F. Gachet, C. Gales, G. Pucacco, Dynamical models and the onset of chaos in space debris, International Journal of Non-linear Mechanics , 90 (2017), 147-163.

41. A. Celletti, C. Gales, G. Pucacco and A. Rosengren, Analytical development of the lunisolar disturbing function and the critical inclination secular resonance, Celestial Mechanics and Dynamical Astronomy, 127 (2017), 259-283.

40. A. Celletti, C. Gales, G. Pucacco, (FEATURED ARTICLE) Bifurcation of lunisolar secular resonances for space debris orbits, SIAM Journal on Applied Dynamical Systems, 15 (2016), 1352-1383.

39. C. Lhotka, A. Celletti, C. Gales, Poynting-Robertson drag and solar wind in the space debris problem, Monthly Notices of the Royal Astronomical Society, 460 (2016), 802-815.

38. A. Celletti, C. Gales, A study of the lunisolar secular resonance $2\dot{\omega}+\dot{\Omega}=0$", Front. Astron. Space Sci. - Fundamental Astronomy, 31 March 2016 | http://dx.doi.org/10.3389/fspas.2016.00011 (on-line paper)

37. A. Celletti, C. Gales, Dynamical investigation of minor resonances for space debris, Celestial Mechanics and Dynamical Astronomy, 123 (2015), 203-222.

36. A. Celletti, C. Gales, A study of the main resonances outside the geostationary ring, Advances in Space Research, 56(2015), 388-405.

35. A. Celletti, C. Gales, On the Dynamics of Space Debris: 1:1 and 2:1 Resonances, Journal of Nonlinear Science, 24 (2014), 1231-1262.

34. C. Gales, N. Baroiu, On the bending of plates in the electromagnetic theory of microstretch elasticity, ZAMM, 94 (2014) 55-71.

33. I.D. Ghiba, C. Gales, Some qualitative results in the linear theory of micropolar solid-solid mixtures, Journal of Thermal Stresses, 36 (2013), 426-445.

32. C. Gales, Structural stability and convergence in piezoelectricity, SIAM Journal on Applied Mathematics, 72 (2012), 1856-1868.

31. I.D. Ghiba, C. Gales, On the fundamental solutions for micropolar fluid-fluid mixtures under steady state vibrations, Applied Mathematics and Computation, 219 (2012), 2749-2759.

30. C. Gales, Spatial Behavior and Continuous Dependence Results in the Linear Dynamic Theory of Magnetoelectroelasticity, Journal of Elasticity, 108 (2012), 208-223.

29. C. Gales, A cartographic study of the phase space of the restricted three body problem. Application to the Sun-Jupiter-Asteroid system, Communications in Nonlinear Science and Numerical Simulation, 17 (2012), 4721-4730.

28. C. Gales, Some results in micromorphic piezoelectricity, European Journal of Mechanics-A/Solids, 31 (2012), 37-46.

27. I.D. Ghiba, C. Gales, A uniqueness result for the motion of micropolar solid-fluid mixtures in unbounded domain, Annali dell'Universita di Ferrara, 57 (2011) 275-286.

26. C. Gales, I.D. Ghiba, I. Ignatescu, Asymptotic partition of energy in micromorphic thermopiezoelectricity, Journal of Thermal Stresses, 34 (2011), 1241-1249.

25. C. Gales, Spatial behavior in the electromagnetic theory of microstretch elasticity, International Journal of Solids and Structures, 48 (2011), 2755-2763.

24. C. Gales, On uniqueness and continuous dependence in nonlinear thermoviscoelasticity, Journal of Thermal Stresses, 34 (2011), 366-377.

23. C. Gales, A spatial decay estimate in thermoviscoelastic composite cylinders, Analele Stiintifice Univ. Al. I. Cuza Iasi, Matematica, LVII (2011), 111-129.

22. C. Gales, On spatial behavior of harmonic vibrations in viscoelastic Reissner-Mindlin plates, International Journal of Solids and Structures, 48 (2011), 243-248.

21. C. Gales, On the nonlinear theory of micromorphic thermoelastic solids, Mathematical Problems in Engineering, Volume 2010 (2010), Article ID 415304, 16 pages.

20. C. Gales, I.D. Ghiba, On uniqueness and continuous dependence of solutions in viscoelastic mixtures, Meccanica, 45 (2010), 901-909.

19. C. Gales, S. Chirita, On spatial behavior in linear viscoelasticity, Quarterly of Applied Mathematics, 67 (2009), 707-723.

18. C. Gales, On spatial behavior of the harmonic vibrations in thermoviscoelastic mixtures, Journal of Thermal Stresses, 32 (2009), 512-529.

17. C. Gales, On spatial behaviour in viscoelastic mixtures, Proceedings of the Asian Conference on Mecanics of Functional Materials and Structures, ACMFMS2008 (2008), 317-320.

16. C. Gales, C. Chiruta, Investigation of asteroid dynamics via numerical methods, Romanian Astronomical Journal, 18, Supplement (2008), 161-175.

15. S. Chirita, C. Gales, A mixture theory for microstretch thermoviscoelastic solids, Journal of Thermal Stresses, 31 (2008), 1099-1124.

14. S. Chirita, C. Gales, I.D. Ghiba, On spatial behavior of the harmonic vibrations in Kelvin-Voigt materials, Journal of Elasticity, 93 (2008), 81-92.

13. C. Gales, On the asymptotic spatial behaviour in the theory of mixtures of thermoelastic solids, International Journal of Solids and Structures, 45 (2008), 2117-2127.

12. C. Gales, Some results in the dynamics of viscoelastic mixtures, Mathematics and Mechanics of Solids, 13 (2008), 124-147.

11. C. Gales, A mixture theory for micropolar thermoelastic solids, Mathematical Problems in Engineering, Vol. 2007 (2007), Article ID 90672, 21 pages.

10. C. Gales, On the spatial behavior in the theory of viscoelastic mixtures, Journal of Thermal Stresses, 30 (2007), 1-24.

9. C. Gales, On the quasi-static boundary value problems in the theory of swelling porous elastic soils, Multidiscipline Modeling in Materials and Structures, 2 (2006), 227-246.

8. C. Gales, Potential method in the linear theory of swelling porous elastic soils, European Journal of Mechanics A/Solids, 23 (2004), 957-973.

7. C. Gales, Waves and vibrations in the theory of swelling porous elastic soils, European Journal of Mechanics A/Solids, 23 (2004), 345-357.

6. C. Gales, Existence and uniqueness results in the theory of swelling porous elastic soils, Analele Stiintifice ale Universitatii “Al. I. Cuza” Iasi, vol. 49 (2003), 161-174.

5. C. Gales, Spatial decay estimates for solutions describing harmonic vibrations in the theory of swelling porous elastic soils, Acta Mechanica, 161 (2003), 151-164.

4. C. Gales, On the asymptotic partition of energy in the theory of swelling porous elastic soils, Archives of Mechanics, 55 (2003), 91-107.

3. C. Gales, On the spatial behavior in the theory of swelling porous elastic soils, International Journal of Solids and Structures, 39 (2002), 4151-4165.

2. C. Gales, Some uniqueness and continuous dependence results in the theory of swelling porous elastic soils, International Journal of Engineering Science, 40 (2002), 1211-1231.

1. C. Gales, On Saint-Venant's problem in micropolar viscoelasticity, Analele Stiintifice ale Universitatii Al. I. Cuza Iasi, 46 (2000), 131-148.



BOOK CHAPTERS:

7. Alessandra Celletti, Catalin Gales, Resonant dynamics of space debris, (accepted 2021).

6. Catalin Gales, Continuous Dependence Results, vol. 2|C-D, pag. 714-721, In R. Hetnarski (ed.) Encyclopedia of Thermal Stresses, Springer, 2014.

5. Catalin Gales, Hamilton-Kirchhoff Principle, vol. 5|H-K, pag. 2109-2114, In R. Hetnarski (ed.)Encyclopedia of Thermal Stresses, Springer, 2014.

4. Catalin Gales, Nonlinear Thermoelastic Model, vol. 7|N-P, pag. 3377-3387, In R. Hetnarski (ed.) Encyclopedia of Thermal Stresses, Springer, 2014.

3. Catalin Gales, Structural Stability in Linear Thermoelasticity, vol. 8|Q-S, pag. 4688-4694, In R. Hetnarski (ed.) Encyclopedia of Thermal Stresses, Springer, 2014.

2. Catalin Gales, Uniqueness and Continuous Dependence Results in Nonlinear Thermoviscoelasticity, vol. 11|U-Z, pag. 6303-6311, In R. Hetnarski (ed.) Encyclopedia of Thermal Stresses, Springer, 2014.

1. Catalin Gales, A cartographic study of the phase space of the elliptic restricted three body problem: Application to the Sun-Jupiter-Asteroid system, pag. 83-96, in Nonlinear and Complex Dynamics. Applications in Physical, Biological and Financial Systems, J. Machado & D. Baleanu & A. Luo (eds), Springer 2011. br/>


EDITED BOOKS:

Bau G., Celletti A., Gales C., Gronchi G.F., eds., Satellite Dynamics and Space Missions, Springer, INDAM Series, n. 34 (2019).

CITATIONS