Venkatareddy, N and Lin, S-T and Maiti, PK (2023) Phase behavior of active and passive dumbbells. In: Physical Review E, 107 (3).
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Abstract
We report phase separation in a mixture of "hot"and "cold"three-dimensional dumbbells which interact by Lennard-Jones potential. We also have studied the effect of asymmetry of dumbbells and the variation of ratio of "hot"and "cold"dumbbells on their phase separation. The ratio of the temperature difference between hot and cold dumbbells to the temperature of cold dumbbells is a measure of the activity χ of the system. From constant density simulations of symmetric dumbbells, we observe that the "hot"and "cold"dumbbells phase separate at higher activity ratio (χ>5.80) compared to that of a mixture of hot and cold Lennard-Jones monomers (χ>3.44). We find that, in the phase-separated system, the hot dumbbells have high effective volume and hence high entropy which is calculated by two-phase thermodynamic method. The high kinetic pressure of hot dumbbells forces the cold dumbbells to form dense clusters such that at the interface the high kinetic pressure of hot dumbbells is balanced by the virial pressure of cold dumbbells. We find that phase separation pushes the cluster of cold dumbbells to have solidlike ordering. Bond orientation order parameters reveal that the cold dumbbells form solidlike ordering consisting of predominantly face-centered cubic and hexagonal-close packing packing, but the individual dumbbells have random orientations. The simulation of the nonequilibrium system of symmetric dumbbells at different ratios of number of hot dumbbells to cold dumbbells reveals that the critical activity of phase separation decreases with increase in fraction of hot dumbbells. The simulation of equal mixture of hot and cold asymmetric dumbbells revealed that the critical activity of phase separation was independent of the asymmetry of dumbbells. We also observed that the clusters of cold asymmetric dumbbells showed both crystalline and noncrystalline order depending on the asymmetry of dumbbells.
| Item Type: | Journal Article |
|---|---|
| Publication: | Physical Review E |
| Publisher: | American Physical Society |
| Additional Information: | The copyright for this article belongs to the Authors. |
| Keywords: | Lennard-Jones potential, Activity ratios; Constant density; Critical activities; High activity; Kinetic pressure; Lennard Jones; Phase-separated systems; Solidlike ordering; Symmetrics; Temperature differences, Phase separation |
| Department/Centre: | Division of Physical & Mathematical Sciences > Physics |
| Date Deposited: | 21 Apr 2023 10:39 |
| Last Modified: | 21 Apr 2023 10:39 |
| URI: | https://eprints.iisc.ac.in/id/eprint/81376 |
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