Partnership for Reseach and Education in Materials

  • Image of nanoparticles
  • Image of nanoparticles.
  • Image of nanoparticles.
  • Image of nanoparticles.
  • Image of nanoparticles.

Publications-Dr. Eloranta

  1. Copper dimer interactions on a thermomechanical superfluid 4He fountain, E. Popov and J. Eloranta. Journal of Chemical Physics 142, 204704 (2015).
  2. Interaction of helium Rydberg state molecules with dense helium, N. Bonifaci, Z. Li, J. Eloranta, and S. L. Fiedler. Accepted to Journal of Physical Chemistry A (2016).
  3. Rotational superfluidity in small helium droplets, D. Mateo, F. Gonzalez and J. Eloranta. Journal of Physical Chemistry A 119, 2262 (2015).
  4. Interaction of ions, atoms and small molecules with quantized vortex lines in superfluid 4He, D. Mateo, J. Eloranta and G. A. Williams. Journal of Chemical Physics 142, 064510 (2015).
  5. Laser assisted detection of metal nanoparticles in liquid He-II, V. Fernandez, A. Garcia, K. Vossoughian, E. Popov, S. Garrett and J. Eloranta. Journal of Physical Chemistry A 119, 10882 (2015).
  6. Ejection of metal particles into superfluid 4He by laser ablation, X. Buelna, A. Freund, D. Gonzalez, E. Popov and J. Eloranta. Journal of Physical Chemistry B (ASAP), DOI: 10.1021/acs.jpcb.6b06594 (2016).
  7. Theoretical modeling of electron mobility in superfluid 4He, F. Aitken, N. Bonifaci, K. von Haeften and J. Eloranta. Journal of Chemical Physics 145, 044105 (2016).
  8. Time-resolved study of laser initiated shock wave propagation in superfluid 4He, A. Garcia, X. Buelna, E. Popov and J. Eloranta. Journal of Chemical Physics 145, 124504 (2016).
  9. Dynamics of laser ablation in superfluid 4He, X. Buelna, E. Popov and J. Eloranta. Journal of Low Temperature Physics (Online First), DOI: 10.1007/s10909-016-1668-8 (2016).
  10. S. L. Fiedler, D. Mateo, T. Aleksanyan and J. Eloranta, Theoretical modeling of ion mobility in superfluid 4He, Phys. Rev. B 86, 144522 (2012).
  11. H. Kunttu and J. Eloranta, EPR studies of atomic impurities in rare gas matrices, Progress in Theoretical Chemistry and Physics A 25: EPR of Free Radicals in SolidsII, Eds. A. Lund and M. Shiotani (2013, Springer).
  12. V. M. Atrazhev, J. Eloranta, N. Bonifaci, H. van Nguhen, F. Aitken, K. van Haeften and G. Vermeulen, Excited Atoms in Cavities of Liquid He I: Long-Range Interatomic Repulsion and Broadening of Atomic Lines, European Physical Journal ­ Applied Physics 61, 24302 (2013).
  13. S. L. Fiedler and J. Eloranta, Interaction of Helium Rydberg State Atoms with Superfuid Helium, Journal of Low Temperature Physics 174, 269 (2014).
  14. D. Mateo and J. Eloranta, Solvation of Intrinsic Positive Charge in Superfluid Helium, In press for Journal of Physical Chemistry A (2014). Available online: https://pubs.acs.org/doi/pdf/10.1021/jp501451y
  15. Nonadiabatic dynamics by the mean-field and surface-hopping approaches: energy conservation considerations, S. L. Fiedler and J. Eloranta. Mol. Phys. 108, 1471 (2010).
  16. Rotation of methyl radicals in molecular solids, T. Kiljunen, E. Popov, H. Kunttu, and J. Eloranta. J. Phys. Chem. A 114, 4770 (2010).
  17. Kinetics of UV-H2O2 advanced oxidation in the presence of alcohols: The role of carbon centered radicals, E. Popov, M. Mametkuliyev, D. Santoro, L. Liberti and J. Eloranta. Environ. Sci. Tech. 44, 7827 (2010).
  18. Solvation of atomic fluorine in bulk superfluid 4He, J. Eloranta. Low Temp. Phys. 37, 384 (2011).
  19. Theoretical study of quantum gel formation in superfluid 4He, J. Eloranta. J. Low Temp. Phys. 162, 718 (2011).
  20. Injection of atoms and molecules in a superfluid helium fountain: Cu and Cu2Hen (n = 1...), E. Vehmanen, V. Ghazarian, C. Sams, I. Khatchatryan, J. Eloranta and V. A. Apkarian. J. Phys. Chem. A 115, 7077 (2011).
  21. Experimental and theoretical characterization of the long-range interaction between He*3s and He1s, N. Bonifaci, F. Aitken, V. M. Atrazhev, S. L. Fiedler, and J. Eloranta. Phys. Rev. A 85, 042706 (2012).
  22. Theoretical modeling of ion mobility in superfluid 4He, S. L. Fiedler, D. Mateo, T. Aleksanyan and J. Eloranta, Phys. Rev. B 86, 144522 (2012).