Publications in peer-reviewed journals

[17] M Mussel, O Lewis, PJ Basser, and F Horkay (2022), Dynamic model of monovalent-divalent cation exchange in polyelectrolyte gels, Physical Review Materials, 6:035602.

[16] M Mussel, and MF Schneider (2021), Sound pulses in lipid membranes and their potential function in biology, Progress in Biophysics and Molecular Biology, 162:101-110.

[15] M Mussel, and M Slemrod (2021), Conservation laws in biology: two new applications, Quarterly of Applied Mathematics, 79(3):479-492.

[14] M Mussel, PJ Basser, and F Horkay (2021), Ion-induced volume transition in gels and its role in biology, Gels, 7(1):20.

[13] CG Lopez, F Horkay, M Mussel, R Jones, and W Richtering (2020), Screening lengths and osmotic compressibility of flexible polyelectrolytes in excess salt solutions, Soft Matter, 16(31): 7289-7298.

[12] M Mussel and F Horkay (2019), Experimental evidence for universal behavior of ion-induced volume phase transition in sodium polyacrylate gels, Journal of Physical Chemistry Letters 10(24): 7831-7835.

[11] A Liberman# , M Mussel#, D Kario, D Sprinzak, and U Nevo (2019), Modeling cell surface dynamics and cell-cell interactions using Cell Studio: a three-dimentional visualization tool based on gaming technology, Journal of the Royal Society Interface 16(160): 20190264.

[10] M Mussel, PJ Basser, and F Horkay (2019), Effects of mono- and divalent cations on the structure and thermodynamic properties of polyelectrolyte gels, Soft Matter, 15(20): 4153-4161.

[9] M Mussel, and MF Schneider (2019), It sounds like an action potential: unification of electrical, chemical and mechanical aspects of acoustic pulses in lipids, Journal of the Royal Society Interface, 16(151): 20180743.

[8] M Mussel, and MF Schneider (2019), Similarities between action potentials and acoustic pulses in a van der Waals fluid, Scientific Reports, 9: 2467.

[7] A Liberman, D Kario, M Mussel, J Brill, K Buetow, S Efroni, and U Nevo (2018), Cell Studio: a platform for interactive, 3D graphical simulation of immunological processes, APL Bioengineering 2(2): 026107.

[6] C Fillafer, M Mussel, J Muchowski, and MF Schneider (2018), Cell surface deformation during an action potential, Biophysical Journal 114(2): 410-418.

[5] M Mussel, C Fillafer, G Ben-Porath, and MF Schneider (2017), Surface deformation during an action potential in pearled cells, Physical Review E 96(5): 052406.

[4] M Mussel, L Inzelberg, and U Nevo (2017), Insignificance of active flow for neural diffusion weighted imaging: a negative result, Magnetic Resonance in Medicine 78(2): 746-753.

[3] M Mussel#, E Wilczynski#, U Eliav, J Gottesman, M Wilk, and U Nevo (2015), Dynamics of water and sodium in gels under salt induced phase transition, Journal of Polymer Science Part B: Polymer Physics 53(22): 1620-1628.

[2] M Mussel#, K Zeevy#, H Diamant, and U Nevo (2014), Drag of the cytosol as a transport mechanism in neurons, Biophysical Journal 106(12): 2710-2719.

[1] M Mussel, and R Yacoby (2009), The 2-Loop partition function of large N gauge theories with adjoint matter on S3, Journal of High Energy Physics 12: 005.

Conference publications

[1] J Berant, Y Gross, M Mussel, B Sandbank, E Ruppin, and S Edelman (2007), Boosting unsupervised grammar induction by splitting complex sentences on function words, Proceedings of the Boston University Conference on Language Development.

# Equal contribution