Asian Journal of Research in Chemistry

Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Viscosity for Isotopes of Helium with HCB Model


Affiliations
1 Department of Physics, Birsa College, Khunti-835210, Jharkhand, India
2 Department of Physics, Nirmala College, Ranchi-834002, Jharkhand, India
     

   Subscribe/Renew Journal


The calculation of viscosities for the fluids of Helium isotopes, He3 and He4, has been made by using HCB models. The phase shifts required for its calculation of viscosities have been obtained by numerical integration of the radial wave equation expressed by taking a simple form of Leenard-Jones intermolecular potential specified in terms of the support function h(x) and surface to surface coordinate representation K. For both He3 and He4 the phase shifts resemble the rigid sphere behavior for high collision energies of the two colliding helium molecules of the same species. The cross-sections required for the calculation of viscosities below temperature 5K for the fluids of helium isotopes has also been discussed.

Keywords

Support Function, HCB Coordinate System, Phase Shifts, Viscosity.
Subscription Login to verify subscription
User
Notifications
Font Size


Abstract Views: 259

PDF Views: 2




  • Viscosity for Isotopes of Helium with HCB Model

Abstract Views: 259  |  PDF Views: 2

Authors

Binay Prakash Akhouri
Department of Physics, Birsa College, Khunti-835210, Jharkhand, India
Sumit Kaur
Department of Physics, Nirmala College, Ranchi-834002, Jharkhand, India

Abstract


The calculation of viscosities for the fluids of Helium isotopes, He3 and He4, has been made by using HCB models. The phase shifts required for its calculation of viscosities have been obtained by numerical integration of the radial wave equation expressed by taking a simple form of Leenard-Jones intermolecular potential specified in terms of the support function h(x) and surface to surface coordinate representation K. For both He3 and He4 the phase shifts resemble the rigid sphere behavior for high collision energies of the two colliding helium molecules of the same species. The cross-sections required for the calculation of viscosities below temperature 5K for the fluids of helium isotopes has also been discussed.

Keywords


Support Function, HCB Coordinate System, Phase Shifts, Viscosity.