Abstract

Quantum mechanically accurate calculations are carried out for the following reactions involving muonium atom (Mu) using the hyperspherical coordinate approach: Mu+H2→MuH+H, Mu+D2→MuD+D, Mu+HD→MuH(MuD)+D(H), H+MuH→MuH+H, and H+MuD ↔MuH+D. The initial vibrational state is restricted to the ground state (vi=0) and the collision energies considered are up to ∼1.2 eV. The various aspects of the dynamics, such as the isotope effects, the initial rotational state (ji) dependence, and the final rotational state (jf) distribution are analyzed for a wide range of ji and jf. Some of the isotope effects can be interpreted in terms of the variations in reaction barrier and endothermicity. The following two intriguing features are also found: (1) strong enhancement of reaction by initial rotational excitation, and (2) oscillation of integral cross section as a function of collision energy in the case of the Mu-transfer reactions.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Cross sections for rotational energy transfer: An information-theoretic synthesis
I Procaccia ... R D Levine
The Journal of Chemical Physics | VOL. 64
I Procaccia, et. al.I Procaccia ... R D Levine
15 Jan 1976
Quantum dynamics of the Mu + H 2 and Mu + D 2 reactions
Ken-Ichiro Tsuda ... Hiroki Nakamura
Chemical Physics Letters | VOL. 231
Ken-Ichiro Tsuda, et. al.Ken-Ichiro Tsuda ... Hiroki Nakamura
01 Dec 1994
Quantum dynamics of O(3P)+HCl→OH+Cl Effects of reagent rotational excitation
Katsuyuki Nobusada ... Hiroki Nakamura
Journal of the Chemical Society, Faraday Transactions | VOL. 93
Katsuyuki Nobusada, et. al.Katsuyuki Nobusada ... Hiroki Nakamura
01 Jan 1997
Effects of initial rotational quantum state excitations and thermal rate coefficient at room temperature for the $$\hbox {H}(^{2}\hbox {S}) + \hbox {NH}(\hbox {X}^{3}\Sigma ^{-}) \rightarrow \hbox {N}(^{4}\hbox {S}) + \hbox {H}_{2}(\hbox {X}^{1}\Sigma _{g}^{+})$$ H ( 2 S ) + NH ( X 3 Σ - ) → N ( 4 S ) + H 2 ( X 1 Σ g
Huan Yang ... Meihua Ge
Theoretical Chemistry Accounts | VOL. 135
Huan Yang, et. al.Huan Yang ... Meihua Ge
23 Mar 2016
View more papers

More From: The Journal of Chemical Physics

Paper Title
Journal
Date
Author
Vibrational sum frequency generation (VSFG) spectroscopy of water adsorption on surfaces of yttria-stabilized cubic zirconia (YSZ).
Narendra M Adhikari ... Heather C Allen
The Journal of chemical physics | VOL. 161
Narendra M Adhikari, et. al.Narendra M Adhikari ... Heather C Allen
21 Nov 2024
Specific and high-affinity adsorption of volatile organic compounds on titanium dioxide surface.
Xinyi Liu ... Wei-Tao Liu
The Journal of chemical physics | VOL. 161
Xinyi Liu, et. al.Xinyi Liu ... Wei-Tao Liu
21 Nov 2024
SAXS, DLS, and MD studies of the Rg/Rh ratio for swollen and collapsed dendrimers.
Nadezhda N Sheveleva ... Denis A Markelov
The Journal of chemical physics | VOL. 161
Nadezhda N Sheveleva, et. al.Nadezhda N Sheveleva ... Denis A Markelov
21 Nov 2024
A semi-analytic universal model on elasticity across wide temperatures and pressures.
Zhen Yang ... Haifeng Song
The Journal of chemical physics | VOL. 161
Zhen Yang, et. al.Zhen Yang ... Haifeng Song
21 Nov 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.