This work aims to use an important method Galitskii-Migdal-Feynman (GMF) for diatomic molecules 132Xe2, to calculate the effective phase shifts which are then used to compute the effective total and viscosity cross sections at low density and temperature . this study has shown that it’s crucial to include partial waves up to ; for , the effect of the potential becomes negligible . Comparing with partial waves cross sections we deduce that the cross section is dominated by S-wave scattering for low energy (wave number k < 0.1 Å-1), otherwise D and G partial waves dominate . The highest peak rises from the partial effective D and G-wave resonance, where the system sustains a quasi-bound state trapped by the centrifugal barrier. The average cross section is also determined.
RF Bishop, HB Ghassib, and MR Strayer. Low-Energy He-He Interactions with Phenomenological Potentials. Journal of Low Temperature Physics;26 (1977) 669.
BR Joudeh, AS Sandouqa, and HB Ghassib. Al-Sugheir MK. 3He-3He and 4He-4He Cross Sections in Matter at Low Temperature. Journal of Low Temperature Physics; 161 (2010) 348.
IF Al-Maaitah, Total and Viscosity Cross Sections for Krypton Gas at Boiling Point. Applied Physics Research; 11 (2019) 88.
IF Al-Maaitah, Quantum Second Virial Coefficients for Krypton-86 gas. Applied Physics Research; 10 (2018) 1.
MC Bordage, SF Biagi, L L Alves, K Bartschat, and S Chowdhury et al. Comparisons of sets of electron–neutral scattering cross sections and swarm parameters in noble gases: III. Krypton and xenon. Journal of Physics D Applies Physics; 46 (2013) 334003.
M Hayashi, Determination of electron-xenon total excitation cross-sections, from threshold to 100 eV from experimental values of Townsend's α.Journal of Physics D Applies Physics; 16 (1983) 581.
P S Krstić and DR Schultz, Elastic and related transport cross sections for protons scattering from the noble gases He, Ne, Ar, Kr, and Xe. Physics of Plasmas; 13 (2006) 053501.
VE Krohn and G R Ringo, Measurement of the Electron-Neutron Interaction by the Asymmetrical Scattering of Thermal Neutrons by Noble Gases. Physical Review Journals Archive; 148 (1966) 1303.
I Amdu and E A Mason, Scattering of High Velocity Neutral Particles. VII. Xenon—Xenon. The Journal of Chemical Physics; 25 (1956) 624.
R S Robinson, Energetic binary collisions in rare gas plasmas. Journal of Vacuum Science and Technology; 16 (1979) 185.
AK Dham, W J Meath, A R Allnatt, R A Aziz and M Slaman, XC and HFD-B Potential Energy Curves for Xe-Xe and Releted Physical Properties. Chemical Physics; 142 (1990) 173.
G Fekete, Phonon Spectra and Thermodynamic Properties of Rare Gas Solids Based on Empirical and Semi-empirical (ab initio) Two-body Potentials: A Comparative Study. Msc Thesis, Brock University, (2004).
13. JM Standard and PR Certain, Bounds to two‐ and three‐body long‐range interaction coefficients for S‐state atoms. The Journal of Chemical Physics; 83 (1985) 3002.
M Alexandr and M Anatol, Monte Carlo Simulations of Thermodynamic Properties of Argon, Krypton and Xenon in Liquid and Gas State Using New ab initio Pair Potentials. Molecular Physics; 101 (2003)
F Michael and J Z Bruno, Computation of the Transport Coefficients of Dense Fluid Neon, Argon, Krypton and Xenon by Molecular Dynamics.Molecular Physics; 73 (1991) 471.
A V Phelps, Collision Cross Sections for Identical and Non-Identical Rare-Gas Atom Pairs for Energies from 0.01 eV to 10 keV. Boulder, Colorado : University of Colorado and National Institute of Standards and Technology, (2004)
AM Ratner, Atoms and the Simplest Atomic Crystals. Physics Reports; 269 (1996) 197.
A Fetter AL and JD Walecka, Quantum Theory of Many-Particle Systems. New York: McGraw-Hill, (1971).
HB Ghassib, RF Bishop and MR Strayer, A Study of the Galitskii- Feynman T Matrix for Liquid 3Journal of Low Temperature Physics; 23 (1976) 393.
M Lee, Interaction in Low-Dimensional Bose-Einstein Condensates, D. The University of Oxford, UK, (2002).
HT Stoof, M Bijlsma and M Houbiers, Theory of Interacting Quantum Gases. Journal of Research of NIST; 101 (1996) 443.
22. J P Aldridge and R H Davis, Calculated Ramsauer-Townsend effect in 4He-4He. Physical Review Letter; 19 (1967) 1001.
23. MJ Jamieson, A Dalgarno and J Yukich, Elastic Scattering of Hydrogen Atoms at Low Temperatures. Physical Review A; 46 (1992) 6956.
Akour,A. (2021). Properties of 132Xe Neutral Atoms Scattering for 165K and 275K Temperatures. Iranian Journal of Physics Research, 21(3), 49-54. doi: 10.47176/ijpr.21.3.38481
MLA
Akour,A. . " Properties of 132Xe Neutral Atoms Scattering for 165K and 275K Temperatures", Iranian Journal of Physics Research, 21, 3, 2021, 49-54. doi: 10.47176/ijpr.21.3.38481
HARVARD
Akour A. (2021). ' Properties of 132Xe Neutral Atoms Scattering for 165K and 275K Temperatures', Iranian Journal of Physics Research, 21(3), pp. 49-54. doi: 10.47176/ijpr.21.3.38481
CHICAGO
A. Akour, " Properties of 132Xe Neutral Atoms Scattering for 165K and 275K Temperatures," Iranian Journal of Physics Research, 21 3 (2021): 49-54, doi: 10.47176/ijpr.21.3.38481
VANCOUVER
Akour A. Properties of 132Xe Neutral Atoms Scattering for 165K and 275K Temperatures. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2021; 21(3): 49-54. doi: 10.47176/ijpr.21.3.38481
