Where is the supercritical fluid on the phase diagram?
V.V. Brazhkina,b,
A.G. Lyapina,
V.N. Ryzhova,b,
K. Trachenkoc,
Yu.D. Fomina,
E.N. Tsioka aInstitute for High Pressure Physics, Russian Academy of Sciences, Kaluzhskoe shosse 14, Troitsk, Moscow, 108840, Russian Federation bMoscow Institute of Physics and Technology (National Research University), Institutskii per. 9, Dolgoprudny, Moscow Region, 141701, Russian Federation cSouth East Physics Network and School of Physics, Queen Mary University of London, Mile End Road, London, E1 4NS, UK
We discuss the fluid state of matter at high temperature and pressure. We review the existing ways in which the boundary between a liquid and a quasigas fluid above the critical point are discussed. We show that the proposed ’thermodynamic’ continuation of the boiling line, the ’Widom line’, exists as a line near the critical point only, but becomes a bunch of short lines at a higher temperature. We subsequently propose a new ’dynamic’ line separating a liquid and a gas-like fluid. The dynamic line is related to different types of particle trajectories and different diffusion mechanisms in liquids and dense gases. The location of the line on the phase diagram is determined by the equality of the liquid relaxation time and the minimal period of transverse acoustic excitations. Crossing the line results in the disappearance of transverse waves at all frequencies, the diffusion coefficient acquiring a value close to that at the critical point, the speed of sound becoming twice the particle thermal speed, and the specific heat reaching 2kB. In the high-pressure limit, the temperature on the dynamic line depends on pressure in the same way as does the melting temperature. In contrast to the Widom line, the proposed dynamic line separates liquid and gas-like fluids above the critical point at arbitrarily high pressure and temperature. We propose calling the new dynamic line the ’Frenkel line’.
PT Journal Article
TI Where is the supercritical fluid on the phase diagram?
AU Brazhkin V V
FAU Brazhkin VV
AU Lyapin A G
FAU Lyapin AG
AU Ryzhov V N
FAU Ryzhov VN
AU Trachenko K
FAU Trachenko K
AU Fomin Yu D
FAU Fomin YD
AU Tsiok E N
FAU Tsiok EN
DP 10 Nov, 2012
TA Phys. Usp.
VI 55
IP 11
PG 1061-1079
RX 10.3367/UFNe.0182.201211a.1137
URL https://ufn.ru/en/articles/2012/11/a/
SO Phys. Usp. 2012 Nov 10;55(11):1061-1079
Received: 20th, September 2011, revised: 31st, October 2011, accepted: 2nd, November 2011