Structural Markers of the Frenkel Line in the Proximity of Widom Lines

We have performed a neutron scattering experiment on supercritical fluid nitrogen at 160 K (1.27 T C) over a wide pressure range (7.8 MPa/0.260 g/mL–125 MPa/0.805 g/mL). This has enabled us to study the process by which nitrogen changes from a fluid that exhibits gaslike behavior to one that exhibit...

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Veröffentlicht in:	The journal of physical chemistry. B 2021-08, Vol.125 (31), p.8902-8906
Hauptverfasser:	Pruteanu, Ciprian G, Proctor, John E, Alderman, Oliver L. G, Loveday, John S
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Sprache:	eng
Schlagworte:	B: Liquids Chemical and Dynamical Processes in Solution
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container_end_page	8906
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container_title	The journal of physical chemistry. B
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creator	Pruteanu, Ciprian G Proctor, John E Alderman, Oliver L. G Loveday, John S
description	We have performed a neutron scattering experiment on supercritical fluid nitrogen at 160 K (1.27 T C) over a wide pressure range (7.8 MPa/0.260 g/mL–125 MPa/0.805 g/mL). This has enabled us to study the process by which nitrogen changes from a fluid that exhibits gaslike behavior to one that exhibits rigid liquidlike behavior at a temperature close to, but above, the critical temperature by crossing the Widom lines followed by the Frenkel line on pressure (density) increase. We find that the Frenkel line transition is indicated by a transition to a regime of rigid liquidlike behavior in which the coordination number remains constant within error, in agreement with our previous work at 300 K. The Frenkel line transition takes place at approximately the same density at 160 and 300 K. The data do not conclusively show an additional transition at the location of the known Widom lines. We find that behavior remains gaslike until the Frenkel line is crossed and our data support the hypothesis that Widom line transitions are density increase-driven.
doi_str_mv	10.1021/acs.jpcb.1c04690
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title	Structural Markers of the Frenkel Line in the Proximity of Widom Lines
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