© 2025 Quantum Technologies with Ultracold Trapped Ions

Publications

Papers and Conference Proceedings

  1. A. Marcu, M. Stafe, A. Groza, M. Şerbănescu, R. Ungureanu, G. Cojocaru, C. Diplaşu, B. Mihalcea, M. Ganciu, C. Neguţu, G. Giubega, and N. Puşcaş, Correlation of Laser-Accelerated Electron Energy with Electromagnetic Pulse Emission from Thin Metallic Targets, Appl. Sci. 15 (1) 29 (2025); Link
  2. M. I. Mihăilescu, V. Mărăscu and B. M. Mihalcea, Tests Towards Building a Quantum Key Distribution (QKD) Link, 2024 Intl. Conf. on Applied Mathematics & Computer Science (ICAMCS), Venice, Italy, 28-30 Sept. 2024, pp. 206 – 210; Link
  3. Bogdan M. Mihalcea, Contributions to the study of time dependent oscillators in Paul traps. Semiclassical approach, Rom. J. Phys. 69 (9 – 10) 205 (2024); Link
  4. Bogdan M. Mihalcea, Solutions of the Mathieu-Hill Equation for the Trapped Ion Harmonic Oscillator — A Qualitative Discussion, Mathematics 12 (19) 2963 (2024); Link
  5. Bogdan M. Mihalcea, Mathieu-Hill Equation Stability Analysis for Trapped Ions: Anharmonic Corrections for Nonlinear Electrodynamic Traps, Photonics 11 (6) 551 (2024); Link
  6. Bogdan M. Mihalcea, Coherent states for trapped ions. Applications in quantum optics and precision measurements, Proc. of the Ninth Meeting on CPT and Lorentz Symmetry (CPT’22), pp. 192 – 195; Editor: Ralf Lehnert, World Scientific (2023); Link
  7. Bogdan M. Mihalcea, V. Filinov, R. Syrovatka, L. Vasilyak, The physics and applications of strongly coupled Coulomb plasmas levitated in electrodynamic traps; Phys. Rep. 1016, p. 1 – 103 (2023); Link
  8. Bogdan M. Mihalcea, Quasienergy operators and generalized squeezed states for systems of trapped ions, Ann. Phys. (NY) 442 169826 (2022); Link
  9. B. M. Mihalcea, S. Lynch, Investigations on dynamical stability in 3D quadrupole ion traps (QIT), Appl. Sci. 11 (7) 2938 (2021); Link
  10. M. Ganciu, A. Groza, O. Cramariuc, B. Mihalcea, M. Șerbănescu, E. Stancu, A. Surmeian, B. Butoi, D. Dreghici, A. Chiroşca and B. Cramariuc, Hardware and software methods for radiation resistance rising of the critical infrastructures, Rom. Cyber Secur. J. 1 (1), p. 3 – 13 (2019); Link
  11. A. Groza, M. Șerbănescu, B. Butoi, E. Stancu, M. Straticiuc, I. Burducea, A. Bălan, A. Chiroşca, B. Mihalcea, M. Ganciu, Advances în Spectral Distribution Assessment of Laser Accelerated Protons using Multilayer CR-39 Detectors, Appl. Sci. 9 (10) 2052 (2019); Link
  12. B. M. Mihalcea, Squeezed Coherent States of Motion for Ions Confined in Quadrupole and Octupole Ion Traps, Ann. Phys. (NY) 388, p. 100 – 113 (2018) ; Link
  13. B. M. Mihalcea, Study of Quasiclassical Dynamics of Trapped Ions using the Coherent State formalism and associated Algebraic Groups, Rom. J. Phys. 62 (5 – 6) 113 (2017); Link
  14. B. M. Mihalcea, L. C. Giurgiu, C. Stan, G. Vişan, M. Ganciu, V. Filinov, D. Lapitsky, L. Deputatova, R. Syrovatka, Multipole electrodynamic ion trap geometries for microparticle confinement under standard ambient temperature and pressure conditions, J. Appl. Phys. 119 (11) 114303 (2016); Link
  15. B. M. Mihalcea, C. Stan, L. C. Giurgiu, A. Groza, A. Surmeian, M. Ganciu, V. Filinov, D. Lapitsky, L. Deputatova, L. Vasilyak, V. Pecherkin, V. Vladimirov, R. Syrovatka, Multipole Traps as Tools in Environmental Studies, Rom. J. Phys. 61 (7 – 8), p. 1395 – 1411 (2016); Link
  16. A. Surmeian, D. M. Maximean, B. Mihalcea, O. Stoican, B. Butoi, O. Dănilă, P. Dincă, I. Bărbuţ, L. Tudor, A. Fazacaş, E. Diplaşu, P. Chapon, M. Ganciu, GDOES and GDMS analytical systems, effective tools for characterization of conductive and nonconductive material surfaces, Univ. Politehnica of Bucharest, Sci. Bull. – Series A – Appl. Math. Phys. 77 (4) (2015), pp. 273 – 280; Link
  17. B. M. Mihalcea, Semiclassical dynamics for an ion confined within a nonlinear electromagnetic trap, Phys. Scr. T143 014018 (2011); Link
  18. B. M. Mihalcea, Nonlinear harmonic boson oscillator, Phys. Scr. T140 014056 (2010); Link
  19. B. M. Mihalcea, G. G. Vişan, Nonlinear ion trap stability analysis, Phys. Scr. T140 014057 (2010); Link
  20. B. M. Mihalcea, A quantum parametric oscillator in a radiofrequency trap, Phys. Scr. T135 014006 (2009); Link
  21. B. M. Mihalcea, G. Vişan, L. C. Giurgiu, Șt. Rădan, Optimization of ion trap geometries and of the signal-to-noise ratio for high resolution spectroscopy, J. Optoel. Adv. Mat. 10 (8), p. 1994 – 1998 (2008); Link
  22. C. Mandache, O. Gheorghiu, T. Acsente, B. Mihalcea, O. Stoican, A. Niculescu, L. Giurgiu, Frequency standards and time metrology in Romania, Proc. of the 2004 IEEE International Frequency Control Symposium and Exposition, Article No. P2FC-N-2, p. 693 – 697, IEEE (2005) ISBN: 0-7803-8413-X; Link
  23. B. Mihalcea, O. Stoican, Microparticle dynamics in a nonlinear electromagnetic trap, Rom. J. Phys. 47 (5 – 6), p. 597 – 606 (2002); Link1 Link2
  24. O. Stoican, B. Mihalcea, V. Gheorghe, Miniaturized microparticle trapping setup with variable frequency, Rom. Rep. Phys. 53 (3 – 8), p. 275 – 280 (2001); Link
  25. B. M. Mihalcea, C. M. Niculae, V. N. Gheorghe, On the multipolar electromagnetic traps, Rom. J. Phys. 44 (5 – 6), p. 543 – 550 (1999); Link
  26. V. N. Gheorghe, L. Giurgiu, O. Stoican, D. Cacicovschi, R. Molnar and B. Mihalcea, Ordered Structures in a Variable Length A.C. Trap, Acta Phys. Pol. A 93 (4), p. 625 – 629 (1998); Link
  27. V. Gheorghe, L. Giurgiu, O. Stoican, B. Mihalcea, D. Cacicovschi, On the Stored Ions Diagnosis, Analele Şt. Univ. Al. I. Cuza Iaşi, Tomul XL–XLII, Plasma Physics, p. 145 – 149, 1994 –1996 (1997)
  28. V. Gheorghe, L. Giurgiu, O. Stoican, B. Mihalcea, D. Cacicovschi, S.Comănescu, Parametrical excitation in a linear air trap, Technical Digest 6-th EQEC Conf. Hamburg, Sept.1996, p. 112 – 113; Link
  29. V Gheorghe, L Giurgiu, O Stoican, B Mihalcea, D Cacicovschi, S Comănescu, Linear macroparticle trap operating în air, Conference on Precision Electromagnetic Measurements (CPEM96) Digest 1996, 16 – 19 June 1996, p. 304 – 305; Link
  30. V. Gheorghe, L. Giurgiu, D. Cacicovschi, B. Mihalcea, O. Stoican, Modified Paul Trap Geometry for Microplasmas, Proc. SPIE Vol. 2461, p. 534 – 538 (1995); Link
  31. Octav C. Gheorghiu, Liviu C. Giurgiu, Bogdan M. Mihalcea, Dragoş M. Cacicovschi, Anca Niculescu, The M8 and M9 Hydrogen Masers as the national frequency standard at the National Institute of Metrology – Bucharest, Proc. of the 9th European Time Frequency Forum (EFTF95), 8 – 10 March 1995, Besançon, France, p. 397 – 399; Link1 Link2
  32. L. Giurgiu, O. Stoican, D. Cacicovschi, B. Mihalcea, V. Gheorghe, An optical bridge for stored ion diagnosis, Proc. 5th European Quantum Electronics Conf. (EQEC), 29 Aug. – 2 Sept. 1994, Amsterdam, Publisher: IEEE, p. 53 – 54; Link
  33. L. C. Giurgiu, B. M. Mihalcea, M. P. Dincă, On the parasitic modulation of the H maser frequency by the heating current intensity, Rev. Roum. Phys. 37 (5), p. 465 – 471 (1992); Link

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