Phase transitions in a system of long hard rods on a lattice
APA
(2024). Phase transitions in a system of long hard rods on a lattice. SciVideos. https://youtube.com/live/eogiSl68gvs
MLA
Phase transitions in a system of long hard rods on a lattice. SciVideos, Oct. 28, 2024, https://youtube.com/live/eogiSl68gvs
BibTex
@misc{ scivideos_ICTS:30039,
doi = {},
url = {https://youtube.com/live/eogiSl68gvs},
author = {},
keywords = {},
language = {en},
title = {Phase transitions in a system of long hard rods on a lattice},
publisher = {},
year = {2024},
month = {oct},
note = {ICTS:30039 see, \url{https://scivideos.org/index.php/icts-tifr/30039}}
}
Abstract
A system of hard rigid rods of length $k \gg1$ on hypercubic lattices in dimensions $d \geq2$, is known to undergo two phase transitions when chemical potential is increased: from a low-density phase to an intermediate density nematic phase, and on further increase to a high-density phase with no nematic order. I will present non-rigorous arguments to support the conjecture that for large $k$, the second phase transition is a first-order transition with a discontinuity in density in all dimensions greater than $1$. The chemical potential at the transition is $\approx A k \ln k$ for large $k$, and that the density of uncovered sites drops from a value $\approx B (\ln k)/ k^2$ , to a value of order $\exp(−ck)$, where $c$ is some constant, across the transition. We conjecture that these results are asymptotically exact, and $A = B= 1$, in all dimensions $d ≥ 2$.