Ram Adar

Physics Department @ Technion

Publications

My Google scholar profile
  1. Separation of Ionic Timescales Explains Dynamics of Cellular Volume Regulation,
    R. M. Adar, Biophys. J. 124, 1-8 (2025).
    arXiv.
  2. Cell adhesion and Spreading on Fluid Membranes through Microtubules-dependent Mechanotransduction,
    O. Mikhajlov, R. M. Adar, M. Tătulea-Codrean, A. S. Macé, J. Manzi, F. Tabarin, A. Battistella, F. Di Federico, J. F. Joanny, G. T. van Nhieu, P. Bassereau, Nat. Comm. 16, 1201 (2025).
    bioRxiv.
  3. Elasticity drives effective attraction between equal charges in colloidal crystals, R. M. Adar, J. Club Cond. Matt., January (2025).
  4. Environment-stored memory in active nematics and extra-cellular matrix remodeling,
    R. M. Adar and J. F. Joanny, Phys. Rev. Lett. 133, 118402 (2024). Featured in Journal Club for Cond. Matt. Phys.
    arXiv.
  5. Volume Regulation in Adhered Cells: Roles of Cell Swelling and Surface Tension,
    R. M. Adar, A. S. Vishen, J. F. Joanny, P. Sens, and S. A. Safran, Biophys. J. 122, 506-512 (2022).
    bioRxiv.
  6. Active-gel Theory for Multicellular Migration of Polar Cells in the Extra-Cellular Matrix,
    R. M. Adar and J. F. Joanny, New J. Phys. 24, 073001 (2022).
  7. Conductivity of Concentrated Electrolytes,
    Y. Avni, R. M. Adar, D. Andelman, and H. Orland, Phys. Rev. Lett. 128, 098002 (2022).
    arXiv.
  8. Permeation Instabilities in Active Polar Gels,
    R. M. Adar and J. F. Joanny, Phys. Rev. Lett. 127, 188001 (2021).
    arXiv.
  9. Active Volume Regulation in Adhered Cells,
    R. M. Adar and S. A. Safran, Proc. Natl. Acad. Sci. USA 117, 5604 (2020).
  10. Charge Oscillations in Ionic Liquids: A Microscopic Cluster Model,
    Y. Avni, R. M. Adar, and D. Andelman, Phys. Rev. E (Rapid Communication) 101, 010601 (2020).  Awarded Phys. Rev. E Editors’ Suggestion.
    arXiv.
  11. Screening Length for Finite-size Ions in Concentrated Electrolytes,
    R. M. Adar, S. A. Safran, H. Diamant, and D. Andelman, Phys. Rev. E 100, 042615 (2019).
    arXiv.
  12. Linear Response Functions of an Electrolyte Solution in a Uniform Flow,
    R. M. Adar, Y. Uematsu, S. Komura, and D. Andelman, Phys. Rev. E 98, 032604 (2018).
    arXiv.
  13. Dielectric Constant of Ionic Solutions: Combined Effects of Correlations and Excluded Volume,
    R. M. Adar, T. Markovich, A. Levy, H. Orland, and D. Andelman, J. Chem. Phys. 149, 054504 (2018). Awarded J. Chem Phys. Editor’s pick.
    arXiv.
  14. Osmotic Pressure between Arbitrarily Charged Planar Surfaces: A Revisited Approach,
    R. M. Adar and D. Andelman, Eur. Phys. J. E 41, 11 (2018). Featured in Journal Club for Cond. Matt. Phys.
    arXiv.
  15. Electrostatics of Patchy Surfaces,
    R. M. Adar, D. Andelman, and H. Diamant, Adv. Colloids Interf. Sci. 247, 198 (2017).
    arXiv.
  16. Bjerrum Pairs in Ionic Solutions: a Poisson-Boltzmann Approach,
    R. M. Adar, T. Markovich, and D. Andelman, J. Chem. Phys. 146, 194904 (2017). Awarded J. Chem. Phys. 2017 Editor’s Choice Article.
    arXiv.
  17. Electrostatic Attraction between Overall Neutral Surfaces,
    R. M. Adar, D. Andelman, and H. Diamant, Phys. Rev. E 94, 022803 (2016).
    arXiv.

Submitted Manuscripts

  • Theory of Cell Size Regulation during Migration in Adhered Cells, J. E. Ron and R. M. Adar (2025).
    arXiv.