1 selected entry has been cited at least 6 times (SCI, 17-05-2024)

Article	O. Peleg, M. Kröger, Y. Rabin Effect of network topology on phase separation in two-dimensional Lennard-Jones networks Phys. Rev. E 79 (2009) 040401(R) [article also included in the Virtual J. Biol. Phys. 17:8 (2009)]
We generate 2D Lennard-Jones networks with random topology, by preparing a perfect 4-functional network of identical harmonic springs and randomly cutting some of the springs. Using molecular dynamics simulations we find that the fraction p of active springs affects both the temperature of phase separation and the type of structures observed below this temperature, from network-like high density patterns at p>0.5 ('gel') to droplet-like structures at p<0.5 ('sol'). In the gel domain, these patterns are determined by the interplay between free energy and network topology, with the former dominant as p->1 and the latter as p->0.5. Addon material »» for LaTeX users @article{OPeleg2009-79,  author = {O. Peleg and M. Kr\"oger and Y. Rabin},  title = {Effect of network topology on phase separation in two-dimensional Lennard-Jones networks},  journal = {Phys. Rev. E},  volume = {79},  pages = {040401},  year = {2009} } \bibitem{OPeleg2009-79} O. Peleg, M. Kr\"oger, Y. Rabin, Effect of network topology on phase separation in two-dimensional Lennard-Jones networks, Phys. Rev. E {\bf 79} (2009) 040401(R) [article also included in the Virtual J. Biol. Phys. 17:8 (2009)]. OPeleg2009-79 O. Peleg, M. Kr\"oger, Y. Rabin Effect of network topology on phase separation in two-dimensional Lennard-Jones networks Phys. Rev. E,79,2009,040401(R) [article also included in the Virtual J. Biol. Phys. 17:8 (2009)]