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Barrier Height Effect on Cl+H2(D2) Reaction
Ting-xian Xie* , Ai-min Shi
Author NameAffiliation
Ting-xian Xie* Department of Mathematics & Physics, Dalian Jiaotong University, Dalian 116028, China 
Ai-min Shi Department of Mathematics & Physics, Dalian Jiaotong University, Dalian 116028, China 
Abstract:
Three-dimensional time-dependent quantum wave packet calculation was performed to study the reaction dynamics of Cl+H2(D2) on two potential energy surfaces (CW PESs). The first CW PES is with spin-orbit correction; the second is without spin-orbit correction. The integral cross-section and reaction probability as a function of collision energy are calculated in the collision energy range of 0.1 eV to 1.4 eV. For reaction of Cl with D2, the reaction section with spin-orbit correction has a shift toward the high energy because the barrier height increases. As for the reaction of Cl with H2 at low collision energy, it is more reactive on the PES with spin-orbit correction than on the low barrier height PES without spin-orbit correction, due to the tunnel effect for the reaction of the Cl with H2. When the collision energy is higher than 0.7 eV, the reactivity on the low barrier height PES is larger than that on the high barrier height PES. It is believed that the barrier height plays a very important role in the reactivity of Cl with (H2, D2). For the Cl+H2 reaction the barrier width is also very important because of the tunneling effect.
Key words:  Barrier height, Time-dependent wave packet, Cl+H2(D2) reaction
FundProject:
势垒高度对Cl+H2(D2)反应的影响
解廷献*,石爱民
摘要:
使用三维含时波包方法在两个势能面上研究了Cl+H2(D2)反应.所使用的两个势能面都是从CW(Capecchi和Wener)势能面得到的,第一个是CW势能面的基态面加自旋轨道耦合修正,第二个是CW势能面的基态面没有自旋轨道耦合修正.在这两个势能面上得到了碰撞能从0.1到1.4 eV的积分截面以及反应几率.对于Cl与D2反应,考虑自旋轨道耦合后由于势垒高度的增加反应截面向高能处有一个平移,但Cl与H2反应在低能处的反应活性反而增大了,原因是虽然自旋轨道耦合效应增加了势垒高度,同时减小了势垒宽度,隧道效应更加明显,而隧道效应在低能处起着比较重要的作用,所以反应活性比较大.当碰撞能大于0.7 eV时,没有考虑自旋轨道耦合时势垒高度较低,因而反应活性较大.
关键词:  势垒高度,含时波包方法,Cl+H2(D2)反应
DOI:10.1360/cjcp2007.20(1).12.5
分类号: