The N+H2 reaction has attracted a great deal of attention from both the experimental and the theoretical community, and most of the attention has been paid to the first excited state N (2 D) atoms in collisions wit...The N+H2 reaction has attracted a great deal of attention from both the experimental and the theoretical community, and most of the attention has been paid to the first excited state N (2 D) atoms in collisions with hydrogen molecules and the scalar properties of the reaction. In this paper, we study the stereo dynamical properties and calculate the reaction cross sections of the N(4S) + H2 (v=0, j=0, 2, 5, 10) → NH(X3∑-) + H using the quasi-classical trajectory (QCT) method on an accurate NH2 potential energy surface (PES) reported by Poveda and Varandas [Poveda L A and Varandas A J C 2005 Phys. Chem. Chem. Phys. 7 28671, in a collision energy range of 25 kcal.mol-1 -140 kcal.mol-1. Results indicate that the reactant rotational excitation and initial collision energy both have a considerable influence on the distributions of the k-j' correlation, the k-k'-j' correlation and k-k' correlation. The differential cross section is found to be sensitive to collision energy.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
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
基于翟红生和韩克利给出的势能面[Zhai H S,Han K L 2011 J.Chem.Phys.135 104314],运用准经典轨线方法对H+NH及其同位素取代反应的立体动力学性质进行了理论研究.分别计算并讨论了碰撞能c=8和16 kcal/mol时反应的极化微分反应截面、两...基于翟红生和韩克利给出的势能面[Zhai H S,Han K L 2011 J.Chem.Phys.135 104314],运用准经典轨线方法对H+NH及其同位素取代反应的立体动力学性质进行了理论研究.分别计算并讨论了碰撞能c=8和16 kcal/mol时反应的极化微分反应截面、两矢量k-j′相关分布函数(r)、三矢量k-k′-j′相关分布函数(?r)、空间分布函数(r,?r).结果表明,对于上述的两个碰撞能,由于同位素取代反应中质量因子的不同,同位素效应对H+NH反应的立体动力学性质的影响很明显.展开更多
The effects of isotopic variants on stereodynamic properties for the title reactions have been investigated using a quasi-classical trajectory method based on the first excited state NH2(I^2A') potential energy sur...The effects of isotopic variants on stereodynamic properties for the title reactions have been investigated using a quasi-classical trajectory method based on the first excited state NH2(I^2A') potential energy surface [Li Y Q and Varandas A J C 2010 J. Phys. Chem. A 114 9644]. The forward–backward symmetry scattering of the differential cross section can be observed, which demonstrates that all these reactions follow the insertion mechanism. Three angle distribution functions P(θr), P(φr), and P(θr, φr) with different collision energies and target molecules H2/D2/T2 are calculated. It is shown that the product rotational angular momentum is not only aligned, but also oriented along the direction perpendicular to the scattering plane. The title reaction is mainly governed by the "in-plane" mechanism through the calculated distribution function P(θr, φr). The observable influences on the rotational polarization of the product by the isotopic substitution of H/D/T can be demonstrated.展开更多
Quasi-classical trajectory theory is used to study the reaction of O(3p) with H2 (D2) based on the ground 3A″ potential energy surface (PES). The reaction cross section of the reaction O+H2→+OH+H is in exce...Quasi-classical trajectory theory is used to study the reaction of O(3p) with H2 (D2) based on the ground 3A″ potential energy surface (PES). The reaction cross section of the reaction O+H2→+OH+H is in excellent agreement with the previous result. Vector correlations, product rotational alignment parameters (P2(j′. k)) and several polarizeddependent differential cross sections are further calculated for the reaction. The product polarization distribution exhibits different characteristics that can be ascribed to different motion paths on the PES, arising from various collision energies or mass factors.展开更多
The Ca+CH3I→CaI+CH3 reaction system has been studied with the quasi-classical trajectory method on the extended Lond-Eyring-Polanyi-Sato(LEPS) potential energy surface. At collision energy Ecol=10.78 kJ/mol, the ...The Ca+CH3I→CaI+CH3 reaction system has been studied with the quasi-classical trajectory method on the extended Lond-Eyring-Polanyi-Sato(LEPS) potential energy surface. At collision energy Ecol=10.78 kJ/mol, the calculated results show that the CaI vibrational population peaks are located at v=2. The calculated cross section decreases slowly with the collision energy increasing. The angle product distributions tend toward backward scattering. The calculated (P2(J^1·K)) values deviate slightly from-0.5 and decrease with increasing collision energy. The Quasiclassical trajectory calculation(QCT) results are in reasonable agreement with experimental data. Moreover, the dynamics of the reaction has been discussed.展开更多
The stereodynamical properties of H(^2S) + NH(v = 0,j = 0,2,5,10)→N(^4S) + H2 reactions are studied in this paper by using the quasi-classical trajectory(QCT) method with different collision energies on the...The stereodynamical properties of H(^2S) + NH(v = 0,j = 0,2,5,10)→N(^4S) + H2 reactions are studied in this paper by using the quasi-classical trajectory(QCT) method with different collision energies on the double many-body expansion(DMBE) potential energy surface(PES)(Poveda L A and Varandas A J C 2005 Phys.Chem.Chem.Phys.7 2867).In a range of collision energy from 2 to 20 kcal/mol,the vibrational rotational quantum numbers of the NH molecules are specifically investigated on v = 0 and j = 0,2,5,10 respectively.The distributions of P(θr),P(φr),P(θr,φr),(2π/σ)(dσ(00)/dωt)differential cross-section(DCSs) and integral cross-sections(ICSs) are calculated.The ICSs,computed for collision energies from 2 kcal/mol to 20 kcal/mol,for the ground state are in good agreement with the cited data.The results show that the reagent rotational quantum number and initial collision energy both have a significant effect on the distributions of the k-j',the k-k'-j',and the k-k' correlations.In addition,the DCS is found to be susceptible to collision energy,but it is not significantly affected by the rotational excitation of reagent.展开更多
The quasi-classical trajectory (QCT) is calculated to study the stereodynamics properties of the title reaction H(^2S) + NH (X^3 ∑^-, v = 0, j = 0)→ N(^4S) + H2 on the ground state ^4A″ potential energy s...The quasi-classical trajectory (QCT) is calculated to study the stereodynamics properties of the title reaction H(^2S) + NH (X^3 ∑^-, v = 0, j = 0)→ N(^4S) + H2 on the ground state ^4A″ potential energy surface (PES) constructed by Zhai and Han [2011 Jr. Chem. Phys. 135 104314]. The calculated QCT reaction probabilities and cross sections are in good agreement with the previous theoretical results. The effects of the collision energy on the k-kt distribution and the product polarization of H2 are studied in detail. It is found that the scattering direction of the product is strongly dependent on the collision energy. With the increase in the collision energy, the scattering directions of the products change from backward scattering to forward scattering. The distribution of P(Or) is strongly dependent on the collision energy below the lower collision energy (about 11.53 kcal/mol). In addition, the P((Pr) distribution dramatically changes as the collision energy increases. The calculated QCT results indicate that the collision energy plays an important role in determining the stereodynamics of the title reaction.展开更多
Based on an extended London-Eyring-Polanyi-Sato (LEPS) potential energy surface (PES), the Ba q-HF reaction has been studied by the quasi-classical trajectory (QCT) method. The reaction integral cross section as...Based on an extended London-Eyring-Polanyi-Sato (LEPS) potential energy surface (PES), the Ba q-HF reaction has been studied by the quasi-classical trajectory (QCT) method. The reaction integral cross section as a function of collision energy for the Ba q- HF --* BaF q- H reaction is presented and the influence of isotope substitution on the differential cross sections (DCSs) and alignments of the product's rotational angular momentum have also been studied. The results suggest that the integral cross sections increase with increasing collision energy, and the vibrational excitation of the reagent has great influence on the DCS. In addition, the product's rotational polarization is very strong as a result of heavy-heavy-light (HHL) mass combination, and the distinct effect of isotope substitution on the stereodynamics is also revealed.展开更多
基金supported by the Natural Science Foundation of Shandong Province of China (Grant No. Z2008A02)
文摘The N+H2 reaction has attracted a great deal of attention from both the experimental and the theoretical community, and most of the attention has been paid to the first excited state N (2 D) atoms in collisions with hydrogen molecules and the scalar properties of the reaction. In this paper, we study the stereo dynamical properties and calculate the reaction cross sections of the N(4S) + H2 (v=0, j=0, 2, 5, 10) → NH(X3∑-) + H using the quasi-classical trajectory (QCT) method on an accurate NH2 potential energy surface (PES) reported by Poveda and Varandas [Poveda L A and Varandas A J C 2005 Phys. Chem. Chem. Phys. 7 28671, in a collision energy range of 25 kcal.mol-1 -140 kcal.mol-1. Results indicate that the reactant rotational excitation and initial collision energy both have a considerable influence on the distributions of the k-j' correlation, the k-k'-j' correlation and k-k' correlation. The differential cross section is found to be sensitive to collision energy.
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.
文摘基于翟红生和韩克利给出的势能面[Zhai H S,Han K L 2011 J.Chem.Phys.135 104314],运用准经典轨线方法对H+NH及其同位素取代反应的立体动力学性质进行了理论研究.分别计算并讨论了碰撞能c=8和16 kcal/mol时反应的极化微分反应截面、两矢量k-j′相关分布函数(r)、三矢量k-k′-j′相关分布函数(?r)、空间分布函数(r,?r).结果表明,对于上述的两个碰撞能,由于同位素取代反应中质量因子的不同,同位素效应对H+NH反应的立体动力学性质的影响很明显.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.11474141 and 11274149)the Program of Shenyang Key Laboratory of Optoelectronic Materials and Technology,China(Grant No.F12-254-1-00)+3 种基金the Scientific Research Foundation for Doctors of Liaoning Universitythe Special Fund Based Research New Technology of Methanol Conversion and Coal Instead of Oilthe China Postdoctoral Science Foundation(Grant No.2014M550158)the Program for Liaoning Excellent Talents in University(Grant No.LJQ2014001)
文摘The effects of isotopic variants on stereodynamic properties for the title reactions have been investigated using a quasi-classical trajectory method based on the first excited state NH2(I^2A') potential energy surface [Li Y Q and Varandas A J C 2010 J. Phys. Chem. A 114 9644]. The forward–backward symmetry scattering of the differential cross section can be observed, which demonstrates that all these reactions follow the insertion mechanism. Three angle distribution functions P(θr), P(φr), and P(θr, φr) with different collision energies and target molecules H2/D2/T2 are calculated. It is shown that the product rotational angular momentum is not only aligned, but also oriented along the direction perpendicular to the scattering plane. The title reaction is mainly governed by the "in-plane" mechanism through the calculated distribution function P(θr, φr). The observable influences on the rotational polarization of the product by the isotopic substitution of H/D/T can be demonstrated.
基金Project supported by the National Natural Science Foundation of China (Grant Nos.60977063 and 10574039)the Innovation Scientists and Technicians Troop Construction Projects of Henan Province of China (Grant No.084100510011)
文摘Quasi-classical trajectory theory is used to study the reaction of O(3p) with H2 (D2) based on the ground 3A″ potential energy surface (PES). The reaction cross section of the reaction O+H2→+OH+H is in excellent agreement with the previous result. Vector correlations, product rotational alignment parameters (P2(j′. k)) and several polarizeddependent differential cross sections are further calculated for the reaction. The product polarization distribution exhibits different characteristics that can be ascribed to different motion paths on the PES, arising from various collision energies or mass factors.
基金Supported by the National Natural Science Foundation of China(No10604012)
文摘The Ca+CH3I→CaI+CH3 reaction system has been studied with the quasi-classical trajectory method on the extended Lond-Eyring-Polanyi-Sato(LEPS) potential energy surface. At collision energy Ecol=10.78 kJ/mol, the calculated results show that the CaI vibrational population peaks are located at v=2. The calculated cross section decreases slowly with the collision energy increasing. The angle product distributions tend toward backward scattering. The calculated (P2(J^1·K)) values deviate slightly from-0.5 and decrease with increasing collision energy. The Quasiclassical trajectory calculation(QCT) results are in reasonable agreement with experimental data. Moreover, the dynamics of the reaction has been discussed.
基金supported by the Natural Science Foundation of Shandong Province,China(Grant No.2016ZRB01066)the University Student’s Science and Technology Innovation Fund of Ludong University,China(Grant No.131007)
文摘The stereodynamical properties of H(^2S) + NH(v = 0,j = 0,2,5,10)→N(^4S) + H2 reactions are studied in this paper by using the quasi-classical trajectory(QCT) method with different collision energies on the double many-body expansion(DMBE) potential energy surface(PES)(Poveda L A and Varandas A J C 2005 Phys.Chem.Chem.Phys.7 2867).In a range of collision energy from 2 to 20 kcal/mol,the vibrational rotational quantum numbers of the NH molecules are specifically investigated on v = 0 and j = 0,2,5,10 respectively.The distributions of P(θr),P(φr),P(θr,φr),(2π/σ)(dσ(00)/dωt)differential cross-section(DCSs) and integral cross-sections(ICSs) are calculated.The ICSs,computed for collision energies from 2 kcal/mol to 20 kcal/mol,for the ground state are in good agreement with the cited data.The results show that the reagent rotational quantum number and initial collision energy both have a significant effect on the distributions of the k-j',the k-k'-j',and the k-k' correlations.In addition,the DCS is found to be susceptible to collision energy,but it is not significantly affected by the rotational excitation of reagent.
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The quasi-classical trajectory (QCT) is calculated to study the stereodynamics properties of the title reaction H(^2S) + NH (X^3 ∑^-, v = 0, j = 0)→ N(^4S) + H2 on the ground state ^4A″ potential energy surface (PES) constructed by Zhai and Han [2011 Jr. Chem. Phys. 135 104314]. The calculated QCT reaction probabilities and cross sections are in good agreement with the previous theoretical results. The effects of the collision energy on the k-kt distribution and the product polarization of H2 are studied in detail. It is found that the scattering direction of the product is strongly dependent on the collision energy. With the increase in the collision energy, the scattering directions of the products change from backward scattering to forward scattering. The distribution of P(Or) is strongly dependent on the collision energy below the lower collision energy (about 11.53 kcal/mol). In addition, the P((Pr) distribution dramatically changes as the collision energy increases. The calculated QCT results indicate that the collision energy plays an important role in determining the stereodynamics of the title reaction.
文摘Based on an extended London-Eyring-Polanyi-Sato (LEPS) potential energy surface (PES), the Ba q-HF reaction has been studied by the quasi-classical trajectory (QCT) method. The reaction integral cross section as a function of collision energy for the Ba q- HF --* BaF q- H reaction is presented and the influence of isotope substitution on the differential cross sections (DCSs) and alignments of the product's rotational angular momentum have also been studied. The results suggest that the integral cross sections increase with increasing collision energy, and the vibrational excitation of the reagent has great influence on the DCS. In addition, the product's rotational polarization is very strong as a result of heavy-heavy-light (HHL) mass combination, and the distinct effect of isotope substitution on the stereodynamics is also revealed.
