This paper investigates the stereodynamics of the reaction He+HD^+ by the quasi-classical trajectory (QCT) method using the most accurate AQUILANTI surface [Aquilanti et al 2000 Mol. Phys. 98 1835]. The distributi...This paper investigates the stereodynamics of the reaction He+HD^+ by the quasi-classical trajectory (QCT) method using the most accurate AQUILANTI surface [Aquilanti et al 2000 Mol. Phys. 98 1835]. The distribution P(Фτ) of dihedral angle and the distribution P(θτ) of angle between k and j' have been presented at three different collision energies. Four generalized polarization-dependent differential cross-sections (2π/σ)(dσ00/dωt), (2π/σ)(dσ20/dωt), (2π/σ)(dσ22/dωt), ((2π/σ)(dσ21-/dωt) are also calculated. Some interesting results are obtained from the comparison of the stereodynamics of the title reaction at different collision energies.展开更多
The product polarizations of the title reactions are investigated by employing the quasi-classical trajectory (QCT) method. The four generalized polarization-dependent differential cross-sections (PDDCSs) (2π/...The product polarizations of the title reactions are investigated by employing the quasi-classical trajectory (QCT) method. The four generalized polarization-dependent differential cross-sections (PDDCSs) (2π/σ)(dσ00/dωt), (2π/σ)(dσ20/dωt), (2π/σ)(dσ22+/dωt), and (2π/σ)(dσ21-/dωt) are calculated in the centre-of-mass frame. The distribution of the angle between κ and j', P(θr), the distribution of the dihedral angle denoting κ-κ'-j' correlation, P(Фr), as well as the angular distribution of product rotational vectors in the form of polar plots P(θr, Фr) are calculated. The isotope effect is also revealed and primarily attributed to the difference in mass factor between the two title reactions.展开更多
Quasiclassical trajectory (QCT) calculations are first carried out to study the stereodynamics of the S (3p) + H2 → SH + H reaction based on the ab initio 13Atr potential energy surface (PES) (Lii etal. 2012...Quasiclassical trajectory (QCT) calculations are first carried out to study the stereodynamics of the S (3p) + H2 → SH + H reaction based on the ab initio 13Atr potential energy surface (PES) (Lii etal. 2012 J. Chem. Phys. 136 094308). The QCT-calculated reaction probabilities and cross sections for the S + H2 (v = 0, j = 0) reaction are in good agreement with the previous quantum mechanics (QM) results. The vector properties including the alignment, orientation, and polarization- dependent differential cross sections (PDDCSs) of the product SH are presented at a collision energy of 1.8 eV. The effects of the vibrational and rotational excitations of reagent on the stereodynamics are also investigated and discussed in the present work. The calculated QCT results indicate that the vibrational and rotational excitations of reagent play an important role in determining the stereodynamic properties of the title reaction.展开更多
We have carried out a quasi-classical trajectory calculation for the reaction ofNe + H2+ (v = 0, j = 1) → NeH+ + H on the ground state (12AI) using the LZHH potential energy surface constructed by L/i et al. ...We have carried out a quasi-classical trajectory calculation for the reaction ofNe + H2+ (v = 0, j = 1) → NeH+ + H on the ground state (12AI) using the LZHH potential energy surface constructed by L/i et al. [Lu S J, Zhang P Y, Han K L and He G Z 2010 J. Chem. Phys. 132 014303]. Differential cross sections at many collision energies indicate that the reaction is dominated by forward-scattering. In addition, the Nell+ product shows rotationally hot and vibrationally cold distributions. Stereodynamical results indicate that the products are strongly polarized in the direction perpendicular to the scattering plane and that the products rotate mainly in planes parallel to the scattering plane.展开更多
Employing the quasi-classical trajectory method and the potential energy surface of Panda and Sathyamurhy [Panda A N and Sathyamurthy N 2004 J. Chem. Phys. 121 9343], the effect of the reagent vibration on vector corr...Employing the quasi-classical trajectory method and the potential energy surface of Panda and Sathyamurhy [Panda A N and Sathyamurthy N 2004 J. Chem. Phys. 121 9343], the effect of the reagent vibration on vector correlation of the ion-molecule reactions D- + H2 and H- + D2 is studied at a collision energy of 35.7 kcal/mol. Four generalized polarization-dependent differential cross sections (2π/σ) (dσ00/dωt), (2π/σ) (dσ20/dσ20), (27π/σ) (dσ22+/dwt), and (2π/σ)(dπ/σ) are presented in the centre-of-mass reference frame, separately. At the same time, the effects on the product angular distributions P(θr), P(~r) and P(Oφ) of the title reactions are also analysed. The calculated results show that the scattering tendencies of the product HD, the alignment and the orientation of j^1 sensitively depend on reagent molecule vibration.展开更多
The isotope effect on the stereodynamic properties in the title reaction is investigated by a quasi-classical trajectory (QCT) method on the 11At potential energy surface at a collision energy of 23.06 kcal/mol. The...The isotope effect on the stereodynamic properties in the title reaction is investigated by a quasi-classical trajectory (QCT) method on the 11At potential energy surface at a collision energy of 23.06 kcal/mol. The angular distributions P(φr ), P(θr), P(θr, φr), and the polarization-dependent generalized differential cross sections are calculated, which demonstrate the observable influences on the rotational polarization of the product by the isotopic substitution of H with D.展开更多
Theoretical studies of stereodynamics for reaction LiH(v=0, j=0)+H → Li+H2 have been carried out with quasiclassical trajectory method on two potential energy surfaces(PESs) structured as W-PES and P-PES. The m...Theoretical studies of stereodynamics for reaction LiH(v=0, j=0)+H → Li+H2 have been carried out with quasiclassical trajectory method on two potential energy surfaces(PESs) structured as W-PES and P-PES. The main difference of the two PESs is at fixed angle of Li--H--H from 110° to 180°. In this angle range, there is an early- staged energy barrier on the P-PES, but there is no barrier on the W-PES. Some studies have been done to explore the influence of the early-staged energy barrier on this exothermic reaction. Integral cross sections, differential cross sec- tions and product rotational angular momentum of the reaction have been calculated. When Ec〈0.48 eV, the do- minant influence of barrier is to restrain reacting. However, when Ec〉0.48 eV, the dominant influence of barrier is to promote reacting. The angular distribution of the product H2 is extremely forward on both the PESs, because the life- time of most complexes is short. Totally, the lifetime on the P-PES is longer than that on W-PES for the existence of the barrier. With the collision energy increasing, on the both PESs, the distribution of the direction of the product H2 angular momentum changed, and there is a trend that peak at (90°,270°) gets weaker and peak at (90°,90°) gets stronger. The energy barrier weakens the degree of the rotation alignment of the H2.展开更多
利用1A’态的势能面[Ho et al.,J.Chem.Phys.116,4124(2002)],采用准经典轨线方法研究了在不同碰撞能条件下,S(1D)+Hz(v=0,j=0)→SH十H反应的立体动力学性质.通过计算得到了描述反应物速度矢量k与产物的转动角动量矢量...利用1A’态的势能面[Ho et al.,J.Chem.Phys.116,4124(2002)],采用准经典轨线方法研究了在不同碰撞能条件下,S(1D)+Hz(v=0,j=0)→SH十H反应的立体动力学性质.通过计算得到了描述反应物速度矢量k与产物的转动角动量矢量j’这两个矢量相关的分布函数P(研)、描述反应物速度矢量k、产物速度矢量k’与产物的转动角动量矢量j’这三个矢量相关的二面角分布函数P(Фr)以及描述反应产物角动量极化的分布函数P(θr,Фr).计算结果表明产物的转动角动量矢量j’在空间具有明显的定向和取向效应,并且产物的转动角动量具有强烈的极化.另外,计算结果还表明这些立体动力学性质对碰撞能非常敏感.展开更多
The quasi-classical trajectory (QCT) method is employed to calculate the stereodynamics of the abstraction reactions H/D + HS/DS based on an accurate potential energy surface [Lti S J, Zhang P Y, Han K L and He G Z...The quasi-classical trajectory (QCT) method is employed to calculate the stereodynamics of the abstraction reactions H/D + HS/DS based on an accurate potential energy surface [Lti S J, Zhang P Y, Han K L and He G Z 2012 J. Chem. Phys. 136 094308]. The reaction cross sections of the title reaction are computed, and the vector correlations for different collision energies and different initial vibrational states are presented. The influences of the collision energy and reagent vibration on the product polarization are studied, and the product polarizations of the title reactions are found to be distinctly different, which arises from the different mass factors, collision energies, and reagent vibrational states.展开更多
The vector correlations between products and reagents for the reactions Ne+H2+, Ne+D2+, and Ne+T2+ are calculated by means of the quasi-classical trajectory method on a new potential energy surface constructed b...The vector correlations between products and reagents for the reactions Ne+H2+, Ne+D2+, and Ne+T2+ are calculated by means of the quasi-classical trajectory method on a new potential energy surface constructed by Lfi et al, [J. Chem. Phys. 2010 132, 014303]. The polarization-dependent differential cross-sections (27π/σ)(dσ00/dωt), (2π/σ)(dσ20/dwt), (27π/σ)(dσ22+/dwt), and (2π/σ)(dσ21-/dwt), and the distributions of P(θr), P(φ), and P(θr, Cr) are calculated. The isotopic effect, which is associated with the difference in mass factor among the three reactions, is revealed.展开更多
Quasi-classical trajectory (QCT) studies on the stereodynamics of H + BrO → O+ HBr reaction have been performed on the X1A' state of ab initio potential energy surface by Peterson [Peterson K A 2000 J. Chem. Phy...Quasi-classical trajectory (QCT) studies on the stereodynamics of H + BrO → O+ HBr reaction have been performed on the X1A' state of ab initio potential energy surface by Peterson [Peterson K A 2000 J. Chem. Phys. 113 4598] in a collision energy range from 0 kcal/mol to 6 kcal/mol. Two of the polarization-dependent generalized differential cross sections (PDDCSs), (2π/σ)(dσ 00/d ω) (PDDCSoo) and (2π/σ)(dσ20/doh) (PDDCS20) are considered. The rotational polarizations of these products show sensitive behaviors to the calculated collision energy range. Furthermore, in order to gain more knowledge about vector correlations, the product angular distribution, P(θr), and the dihedral angle, P (Фr), are calculated, and the results indicate that both the rotational alignment and orientation of the product are enhanced as collision energy increases.展开更多
The stereodynamic properties of the F + HO (v, j) reaction are explored by quasi-classical trajectory (QCT) calculations performed on the 1At and 3At potential energy surfaces (PESs). Based on the polarization-...The stereodynamic properties of the F + HO (v, j) reaction are explored by quasi-classical trajectory (QCT) calculations performed on the 1At and 3At potential energy surfaces (PESs). Based on the polarization-dependent differential cross sections (PDDCSs) and the angular distributions of the product angular momentum with the reactant at different values of initial v or j, the results show that the product scattering and product polarization have strong links with initial vibrationalrotational numbers of v and j. The significant manifestation of the normal DCSs is that the forward scattering gradually becomes predominant with the initial vibrational excitation increasing, and the scattering angle of the HF product taking place on the 3At potential energy surface is found to be more sensitive to the initial value of v. The product orientation and alignment are strongly dependent on the initial rovibrational excitation effect. With enhancement in the initial rovibrational excitation effect, there is an overall decrease in the product orientation as well as in the product alignment either perpendicular to the reagent relative velocity vector k or along the direction of the y axis, for which the initial rotational excitation effect is much more noticeable than the vibrational excitation effect. Moreover, the initial rovibrational excitation effect on the product polarization is more pronounced for the 3At potential energy surface than for the 1At potential energy surface.展开更多
The stereodynamics of the reaction of Ca + HCl are calculated at three different collision energies based on the potential energy surface [Verbockhaven G et al. 2005 J. Chem. Phys. 122 204307] using quasi-classical t...The stereodynamics of the reaction of Ca + HCl are calculated at three different collision energies based on the potential energy surface [Verbockhaven G et al. 2005 J. Chem. Phys. 122 204307] using quasi-classical trajectory theory. The polarization-dependent differential cross sections (PDDCSs) (2π/σ )(dσ 00 /dω t ), (2π/σ )(dσ 20 /dωt ), (2π/σ )(dσ 22+ /dωt ), (2π/σ )(dσ 21 /dω t ) and the distributions of P(θ r ), P(φr ), and P(θr ,φr ) are calculated. The results indicate that the rotational polarization of the CaCl product presents different characteristics for the different collision energies, and the effects of the collision energy on the vector potential, including the alignment, orientation, and PDDCSs, are not obvious.展开更多
We investigate the influence of reagent vibration on the stereodynamics of the title reaction by the quasi-classmal trajectory on the Aguado-Paniagua2-potential energy surface developed by Aguado et al. (J. Chem. Phy...We investigate the influence of reagent vibration on the stereodynamics of the title reaction by the quasi-classmal trajectory on the Aguado-Paniagua2-potential energy surface developed by Aguado et al. (J. Chem. Phys. 1997 106 1013). The cross sections and reaction probability as functions of the reagent vibration are calculated in the centre-of- mass frame. The product angular distributions of p(Фr), p(Фr), and p(Фr, Фr), which reflect the vector correlation, are also presented and discussed. The results indicate that the vector properties are sensitively affected by the vibrational excitation.展开更多
The stereodynamics of the abstraction reaction H^+ NeH^+(v = 1-3,j = 1,3,5) → H2^+ + Ne is studied theoretically with a quasi-classical trajectory method on a new ab initio potential energy surface [ S J,Zhang ...The stereodynamics of the abstraction reaction H^+ NeH^+(v = 1-3,j = 1,3,5) → H2^+ + Ne is studied theoretically with a quasi-classical trajectory method on a new ab initio potential energy surface [ S J,Zhang P Y,Han K L and He G Z 2012 J.Chem.Phys.132 014303].The effects of vibrational and rotational excitation of reagent molecules on the polarization of the product are investigated.The reaction cross sections,the distributions of P(θr),P(φr),and polarizationdependent differential cross sections(PDDCSs) are calculated.The obtained cross sections indicate that the title reaction is a typical barrierless atom(ion)-ion(molecule) reaction.The initial vibrational excitation and rotational excitation of reagent molecules have distinctly different influences on stereodynamics of the title reaction,and the possible reasons for the differences are presented.展开更多
The best optimal initial reactant state and collision energy for observing the stereodynamical vector properties of the title reaction in the ground electronic state X2A’ potential energy surface (PES)[Zanchet et a...The best optimal initial reactant state and collision energy for observing the stereodynamical vector properties of the title reaction in the ground electronic state X2A’ potential energy surface (PES)[Zanchet et al. 2006 J. Phys. Chem. A 110 12017] are theoretically predicted using the quasi-classical trajectory (QCT) method for the first time. The calculated results reveal that the smallest value of the rotational quantum number j, larger vibrational quantum number v, and the lower strength of collision energy should be selected for offering the most obvious picture about the stereodynamical vector properties. Polarization-dependent differential cross sections and the angular momentum alignment distribution, P(θr) and P(Φr) in the center-of-mass frame, are obtained to gain an insight into the alignment and orientation of the product molecules. The rotational angular momentum vector j’ of CO is aligned to be perpendicular to reagent relative velocity k. The product polarizations align along the y axis, pointing to the positive direction of the y axis. A new method is developed to investigate massive reactions with various initial states and to further study the vector properties of the fundamental reactions in detail.展开更多
This paper studies the quantum stereodynamics of the F + HD(v = 0, j = 0)→ HD + F/HF + D reaction at the collision energies of 0.52 and 0.87 kcal/mol. The quantum scattering calculations, based on Stark-Werner p...This paper studies the quantum stereodynamics of the F + HD(v = 0, j = 0)→ HD + F/HF + D reaction at the collision energies of 0.52 and 0.87 kcal/mol. The quantum scattering calculations, based on Stark-Werner potential energy surfaces, show that the differential cross sections for the HF(v′= 2) + D and DF(v′= 3) +H channels are consistent with the recent theoretical results. Furthermore, the product rotational angular momentum orientation and alignment have been determined for some selected rovibrational states of the HF+ D and DF+ H channels.展开更多
基金Project supported by the National Natural Science Foundation of China (Grant Nos 10504017 and 10474060)the Key Project of Chinese Ministry of Education (Grant No 206093)
文摘This paper investigates the stereodynamics of the reaction He+HD^+ by the quasi-classical trajectory (QCT) method using the most accurate AQUILANTI surface [Aquilanti et al 2000 Mol. Phys. 98 1835]. The distribution P(Фτ) of dihedral angle and the distribution P(θτ) of angle between k and j' have been presented at three different collision energies. Four generalized polarization-dependent differential cross-sections (2π/σ)(dσ00/dωt), (2π/σ)(dσ20/dωt), (2π/σ)(dσ22/dωt), ((2π/σ)(dσ21-/dωt) are also calculated. Some interesting results are obtained from the comparison of the stereodynamics of the title reaction at different collision energies.
基金Project supported by Young Funding of Jining University,China (Grant No. 2009QNKJ02)
文摘The product polarizations of the title reactions are investigated by employing the quasi-classical trajectory (QCT) method. The four generalized polarization-dependent differential cross-sections (PDDCSs) (2π/σ)(dσ00/dωt), (2π/σ)(dσ20/dωt), (2π/σ)(dσ22+/dωt), and (2π/σ)(dσ21-/dωt) are calculated in the centre-of-mass frame. The distribution of the angle between κ and j', P(θr), the distribution of the dihedral angle denoting κ-κ'-j' correlation, P(Фr), as well as the angular distribution of product rotational vectors in the form of polar plots P(θr, Фr) are calculated. The isotope effect is also revealed and primarily attributed to the difference in mass factor between the two title reactions.
基金supported by the National Natural Science Foundation of China(Grant Nos.11074103,10974078,and 11174117)the Discipline Construction Fund of Ludong University,China
文摘Quasiclassical trajectory (QCT) calculations are first carried out to study the stereodynamics of the S (3p) + H2 → SH + H reaction based on the ab initio 13Atr potential energy surface (PES) (Lii etal. 2012 J. Chem. Phys. 136 094308). The QCT-calculated reaction probabilities and cross sections for the S + H2 (v = 0, j = 0) reaction are in good agreement with the previous quantum mechanics (QM) results. The vector properties including the alignment, orientation, and polarization- dependent differential cross sections (PDDCSs) of the product SH are presented at a collision energy of 1.8 eV. The effects of the vibrational and rotational excitations of reagent on the stereodynamics are also investigated and discussed in the present work. The calculated QCT results indicate that the vibrational and rotational excitations of reagent play an important role in determining the stereodynamic properties of the title reaction.
基金Project supported by the National Natural Science Foundation of China (Grant No.21073110)the Independent Innovation Foundation of Shandong University of China (Grant No.10000059614011)
文摘We have carried out a quasi-classical trajectory calculation for the reaction ofNe + H2+ (v = 0, j = 1) → NeH+ + H on the ground state (12AI) using the LZHH potential energy surface constructed by L/i et al. [Lu S J, Zhang P Y, Han K L and He G Z 2010 J. Chem. Phys. 132 014303]. Differential cross sections at many collision energies indicate that the reaction is dominated by forward-scattering. In addition, the Nell+ product shows rotationally hot and vibrationally cold distributions. Stereodynamical results indicate that the products are strongly polarized in the direction perpendicular to the scattering plane and that the products rotate mainly in planes parallel to the scattering plane.
基金supported by the National Natural Science Foundation of China (Grant No.11074103)the Discipline ConstructionFund of Ludong University,China
文摘Employing the quasi-classical trajectory method and the potential energy surface of Panda and Sathyamurhy [Panda A N and Sathyamurthy N 2004 J. Chem. Phys. 121 9343], the effect of the reagent vibration on vector correlation of the ion-molecule reactions D- + H2 and H- + D2 is studied at a collision energy of 35.7 kcal/mol. Four generalized polarization-dependent differential cross sections (2π/σ) (dσ00/dωt), (2π/σ) (dσ20/dσ20), (27π/σ) (dσ22+/dwt), and (2π/σ)(dπ/σ) are presented in the centre-of-mass reference frame, separately. At the same time, the effects on the product angular distributions P(θr), P(~r) and P(Oφ) of the title reactions are also analysed. The calculated results show that the scattering tendencies of the product HD, the alignment and the orientation of j^1 sensitively depend on reagent molecule vibration.
基金Project supported by the National Natural Science Foundation of China(Grant No.11004107)the Scientific Research Innovation Projects of Jiangsu Province for University Graduate Students,China(Grant No.CXZZ13 0201)
文摘The isotope effect on the stereodynamic properties in the title reaction is investigated by a quasi-classical trajectory (QCT) method on the 11At potential energy surface at a collision energy of 23.06 kcal/mol. The angular distributions P(φr ), P(θr), P(θr, φr), and the polarization-dependent generalized differential cross sections are calculated, which demonstrate the observable influences on the rotational polarization of the product by the isotopic substitution of H with D.
基金Supoorted by the National Natural Science Foundation of China(No.21271037).
文摘Theoretical studies of stereodynamics for reaction LiH(v=0, j=0)+H → Li+H2 have been carried out with quasiclassical trajectory method on two potential energy surfaces(PESs) structured as W-PES and P-PES. The main difference of the two PESs is at fixed angle of Li--H--H from 110° to 180°. In this angle range, there is an early- staged energy barrier on the P-PES, but there is no barrier on the W-PES. Some studies have been done to explore the influence of the early-staged energy barrier on this exothermic reaction. Integral cross sections, differential cross sec- tions and product rotational angular momentum of the reaction have been calculated. When Ec〈0.48 eV, the do- minant influence of barrier is to restrain reacting. However, when Ec〉0.48 eV, the dominant influence of barrier is to promote reacting. The angular distribution of the product H2 is extremely forward on both the PESs, because the life- time of most complexes is short. Totally, the lifetime on the P-PES is longer than that on W-PES for the existence of the barrier. With the collision energy increasing, on the both PESs, the distribution of the direction of the product H2 angular momentum changed, and there is a trend that peak at (90°,270°) gets weaker and peak at (90°,90°) gets stronger. The energy barrier weakens the degree of the rotation alignment of the H2.
文摘利用1A’态的势能面[Ho et al.,J.Chem.Phys.116,4124(2002)],采用准经典轨线方法研究了在不同碰撞能条件下,S(1D)+Hz(v=0,j=0)→SH十H反应的立体动力学性质.通过计算得到了描述反应物速度矢量k与产物的转动角动量矢量j’这两个矢量相关的分布函数P(研)、描述反应物速度矢量k、产物速度矢量k’与产物的转动角动量矢量j’这三个矢量相关的二面角分布函数P(Фr)以及描述反应产物角动量极化的分布函数P(θr,Фr).计算结果表明产物的转动角动量矢量j’在空间具有明显的定向和取向效应,并且产物的转动角动量具有强烈的极化.另外,计算结果还表明这些立体动力学性质对碰撞能非常敏感.
基金supported by the National Natural Science Foundation of China (Grant No. 11274095)the Natural Science Foundation of Henan Province,China(Grant No. 122300410109)+2 种基金the Natural Science Foundation of the Education Bureau of Henan Province,China (Grant No. 13A140550)the Foundation for University Yong Core Instructors of Henan Province,China (Grant No. 2009GGJS-044)the Cultivating Fund of Henan Normal University,China (Grant No. 2010PL02)
文摘The quasi-classical trajectory (QCT) method is employed to calculate the stereodynamics of the abstraction reactions H/D + HS/DS based on an accurate potential energy surface [Lti S J, Zhang P Y, Han K L and He G Z 2012 J. Chem. Phys. 136 094308]. The reaction cross sections of the title reaction are computed, and the vector correlations for different collision energies and different initial vibrational states are presented. The influences of the collision energy and reagent vibration on the product polarization are studied, and the product polarizations of the title reactions are found to be distinctly different, which arises from the different mass factors, collision energies, and reagent vibrational states.
基金supported by the National Natural Science Foundation of China (Grant Nos. NSFC-11174117 and NSFC-10974078)
文摘The vector correlations between products and reagents for the reactions Ne+H2+, Ne+D2+, and Ne+T2+ are calculated by means of the quasi-classical trajectory method on a new potential energy surface constructed by Lfi et al, [J. Chem. Phys. 2010 132, 014303]. The polarization-dependent differential cross-sections (27π/σ)(dσ00/dωt), (2π/σ)(dσ20/dwt), (27π/σ)(dσ22+/dwt), and (2π/σ)(dσ21-/dwt), and the distributions of P(θr), P(φ), and P(θr, Cr) are calculated. The isotopic effect, which is associated with the difference in mass factor among the three reactions, is revealed.
基金Project supported by the Science Fund from Jilin University,China(Grant No.419080106440)the Chinese National Fusion Project for ITER(Grant No.2010GB104003)the National Natural Science Foundation of China(Grant No.10974069)
文摘Quasi-classical trajectory (QCT) studies on the stereodynamics of H + BrO → O+ HBr reaction have been performed on the X1A' state of ab initio potential energy surface by Peterson [Peterson K A 2000 J. Chem. Phys. 113 4598] in a collision energy range from 0 kcal/mol to 6 kcal/mol. Two of the polarization-dependent generalized differential cross sections (PDDCSs), (2π/σ)(dσ 00/d ω) (PDDCSoo) and (2π/σ)(dσ20/doh) (PDDCS20) are considered. The rotational polarizations of these products show sensitive behaviors to the calculated collision energy range. Furthermore, in order to gain more knowledge about vector correlations, the product angular distribution, P(θr), and the dihedral angle, P (Фr), are calculated, and the results indicate that both the rotational alignment and orientation of the product are enhanced as collision energy increases.
基金supported by the National Natural Science Foundation of China (Grant Nos. 10874096 and 20633070)the Natural Science Foundation of Qingdao University,China (Grant No. 063-06300510)
文摘The stereodynamic properties of the F + HO (v, j) reaction are explored by quasi-classical trajectory (QCT) calculations performed on the 1At and 3At potential energy surfaces (PESs). Based on the polarization-dependent differential cross sections (PDDCSs) and the angular distributions of the product angular momentum with the reactant at different values of initial v or j, the results show that the product scattering and product polarization have strong links with initial vibrationalrotational numbers of v and j. The significant manifestation of the normal DCSs is that the forward scattering gradually becomes predominant with the initial vibrational excitation increasing, and the scattering angle of the HF product taking place on the 3At potential energy surface is found to be more sensitive to the initial value of v. The product orientation and alignment are strongly dependent on the initial rovibrational excitation effect. With enhancement in the initial rovibrational excitation effect, there is an overall decrease in the product orientation as well as in the product alignment either perpendicular to the reagent relative velocity vector k or along the direction of the y axis, for which the initial rotational excitation effect is much more noticeable than the vibrational excitation effect. Moreover, the initial rovibrational excitation effect on the product polarization is more pronounced for the 3At potential energy surface than for the 1At potential energy surface.
基金Project supported by the National Natural Science Foundation of China (Grant Nos. 11174117, 10974078, 11274205, 11274206, 11147026, and 31200545)
文摘The stereodynamics of the reaction of Ca + HCl are calculated at three different collision energies based on the potential energy surface [Verbockhaven G et al. 2005 J. Chem. Phys. 122 204307] using quasi-classical trajectory theory. The polarization-dependent differential cross sections (PDDCSs) (2π/σ )(dσ 00 /dω t ), (2π/σ )(dσ 20 /dωt ), (2π/σ )(dσ 22+ /dωt ), (2π/σ )(dσ 21 /dω t ) and the distributions of P(θ r ), P(φr ), and P(θr ,φr ) are calculated. The results indicate that the rotational polarization of the CaCl product presents different characteristics for the different collision energies, and the effects of the collision energy on the vector potential, including the alignment, orientation, and PDDCSs, are not obvious.
基金Project supported by Jilin University,China(Grant No.419080106440)the Chinese National Fusion Project for ITER(Grant No.2010GB104003)the National Natural Science Foundation of China(Grant No.10974069)
文摘We investigate the influence of reagent vibration on the stereodynamics of the title reaction by the quasi-classmal trajectory on the Aguado-Paniagua2-potential energy surface developed by Aguado et al. (J. Chem. Phys. 1997 106 1013). The cross sections and reaction probability as functions of the reagent vibration are calculated in the centre-of- mass frame. The product angular distributions of p(Фr), p(Фr), and p(Фr, Фr), which reflect the vector correlation, are also presented and discussed. The results indicate that the vector properties are sensitively affected by the vibrational excitation.
基金Project supported by the National Natural Science Foundation of China (Grant No. 11105022)the Fundamental Research Funds for the Central Universities,China (Grant Nos. 2012QN066 and 2011QN142)
文摘The stereodynamics of the abstraction reaction H^+ NeH^+(v = 1-3,j = 1,3,5) → H2^+ + Ne is studied theoretically with a quasi-classical trajectory method on a new ab initio potential energy surface [ S J,Zhang P Y,Han K L and He G Z 2012 J.Chem.Phys.132 014303].The effects of vibrational and rotational excitation of reagent molecules on the polarization of the product are investigated.The reaction cross sections,the distributions of P(θr),P(φr),and polarizationdependent differential cross sections(PDDCSs) are calculated.The obtained cross sections indicate that the title reaction is a typical barrierless atom(ion)-ion(molecule) reaction.The initial vibrational excitation and rotational excitation of reagent molecules have distinctly different influences on stereodynamics of the title reaction,and the possible reasons for the differences are presented.
基金Project supported by the Program of Shenyang Key Laboratory of Optoelectronic Materials and Technology,China(Grant No.F12-254-1-00)the National Natural Science Foundation of China(Grant No.11274149)the Natural Science Foundation of Liaoning Province,China(Grant No.20111035)
文摘The best optimal initial reactant state and collision energy for observing the stereodynamical vector properties of the title reaction in the ground electronic state X2A’ potential energy surface (PES)[Zanchet et al. 2006 J. Phys. Chem. A 110 12017] are theoretically predicted using the quasi-classical trajectory (QCT) method for the first time. The calculated results reveal that the smallest value of the rotational quantum number j, larger vibrational quantum number v, and the lower strength of collision energy should be selected for offering the most obvious picture about the stereodynamical vector properties. Polarization-dependent differential cross sections and the angular momentum alignment distribution, P(θr) and P(Φr) in the center-of-mass frame, are obtained to gain an insight into the alignment and orientation of the product molecules. The rotational angular momentum vector j’ of CO is aligned to be perpendicular to reagent relative velocity k. The product polarizations align along the y axis, pointing to the positive direction of the y axis. A new method is developed to investigate massive reactions with various initial states and to further study the vector properties of the fundamental reactions in detail.
基金supported by the National Natural Science Foundation of China (Grant No 10574039)the Key Project of Science and Technology Research of Education Ministry of China (Grant No 206084)+1 种基金the Innovation Scientists and Technicians Troop Construction Projects of Henan Province, China (Grant No 084100510011)Innovation Talents of Institution of Higher Education of Henan Province, China (Grant No 2006KYCX002)
文摘This paper studies the quantum stereodynamics of the F + HD(v = 0, j = 0)→ HD + F/HF + D reaction at the collision energies of 0.52 and 0.87 kcal/mol. The quantum scattering calculations, based on Stark-Werner potential energy surfaces, show that the differential cross sections for the HF(v′= 2) + D and DF(v′= 3) +H channels are consistent with the recent theoretical results. Furthermore, the product rotational angular momentum orientation and alignment have been determined for some selected rovibrational states of the HF+ D and DF+ H channels.
