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Publications

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Articles de périodiques
Almat, N., Gharavipour, M., Moreno, W., Gruet, F., Affolderbach, C., & Mileti, G. (2019). Long-Term Stability Analysis Towards < 10-14 Level for a Highly Compact POP Rb Cell Atomic Clock. IEEE Tran. on Ultrasonics, Ferroelectronics and Frequency Control, 1, 1-1.
   
Gharavipour, M., Affolderbach, C., Mileti, G., & Kang, S. (2017). Double-resonance spectroscopy in Rubidium vapour-cells for high performance and miniature atomic clocks. Journal of Physics : Conference Series, 793(1), 1-2.
   
Gharavipour, M., Affolderbach, C., Gruet, F., Mileti, G., Jelenkovic, B., Radojicic, I., & Krmpot, A. (2017). Optically-detected spin-echo method for relaxation times measurements in a Rb atomic vapor. New Journal of Physics, 19(art. no 063027), 1-2.
   
Gharavipour, M., Affolderbach, C., Kang, S., Bandi Nagabhushan, T., Gruet, F., Pellaton, M., & Mileti, G. (2016). High performance vapour-cell frequency standards. Journal of Physics : Conference Series, 723, 1-2.
   
Kang, S., Gharavipour, M., Affolderbach, C., & Mileti, G. (2015). Stability limitations from optical detection in Ramsey-type vapour-cell atomic clocks. Electronics Letters, 51(22), 1767-1769.
   
Kang, S., Gharavipour, M., Affolderbach, C., Gruet, F., & Mileti, G. (2015). Demonstration of a high-performance pulsed optically pumped Rb clock based on a compact magnetron-type microwave cavity. Journal of Applied Physics, 117(10), 104510-104514.
   
Actes de congrès
Almat, N., Gharavipour, M., Moreno, W., Affolderbach, C., & Mileti, G. (2019, 14 April). Long-Term Stability Analysis Towards < 10-14 Level for a Highly Compact POP Rb Cell Atomic Clock. Paper presented at IFCS-EFTF, Orlando, Floride (USA).
   
Gharavipour, M., Affolderbach, C., Kang, S., Bandi Nagabhushan, T., Gruet, F., Pellaton, M., & Mileti, G. (2015, 27 October). High performance vapour-cell frequency standards. Paper presented at 8th Symposium on Frequency Standards and Metrology 2015, Potsdam, Allemagne.
   
Thèses
Gharavipour, M. (2018). Ramsey spectroscopy in a Rubidium vapor cell and realization of an ultra-stable atomic clock, Doctorat, Université de Neuchâtel, Neuchâtel.
   
 
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*Format bibliographique : APA5