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Publications

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  1. Gavriel, N & Kaspi, Y. (Submitted). Dynamical constraints on the vertical structure of Jupiter polar cyclones.
     

  2. Duer-Milner, K., Gavriel, N., Galanti, E., Kaspi, Y. (In Review). From gas to ice giants: a unified mechanism for equatorial jets.
     

  3. Kaspi, Y., Galanti E., Park R., Duer K., Gavriel N., et al. (2023). Observational evidence for cylindrically oriented zonal flows on JupiterNature Astronomy, 7(12):1463-1472.
     

  4. Gavriel, N. & Kaspi, Y. (2023). The westward drift of Jupiter's polar cyclones explained by a center-of-mass approachGeophysical Research letters, 50(19):e2023GL103635.
     

  5. Gavriel, N. & Kaspi, Y. (2022). The oscillatory motion of Jupiter's polar cyclones results from vorticity dynamicsGeophysical Research letters, 49(15):e2022GL098708.
     

  6. Duer†, K., Gavriel†, N., Galanti, E., Kaspi, Y., et al. (2021). Evidence for multiple Ferrel-like cells on JupiterGeophysical Research letters, 48(23):e2021GL095651.  â€  Equal contributors​
     

  7. Gavriel, N. & Kaspi, Y. (2021). The Number and location of Jupiter's circumpolar cyclones explained by vorticity dynamicsNature Geoscience, 14(8):559-563. (Cover)
     

  8. Blayer†, Y., Elkayam (Gavriel)†, N., & Ramon, G. Z. (2019). Phase-dependencea of sorption-induced mass streaming in an acoustic field. Applied Physics Letters, 115, 033703.
    † Equal contributors​

     

  9. Offner, A., Yang, R., Feldman, D., Elkayam (Gavriel), N., Agnon, Y. & Ramon, G. Z. (2019). Acoustic oscillations driven by boundary mass exchange. Journal of Fluid Mechanics, 866, 316-349.
     

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