摘要
Production of positron-electron (e^(+) e^(-) ) pairs in an intense laser pulse is investigated by solving the Dirac equation with analytical and numerical methods.We observe that the probability of the pair production will firstly decrease slowly as the pulse length T becomes shortened.Then it will increase until T is reduced to the Compton time Tc =(h)/(mec) ≈ 1.29 × 10^(-21)s and finally decrease exponentially to zero.Hence,for a prominent pair production,we not only require that the electric field strength should be higher than the Schwinger critical value Ecr =m^(2)c^(3)/(e(h)) ≈ 1.32 × 10^(16) V/cm,but also that the pulse duration T should be larger than Tc.The latter is shown to be related to momentum requirement for the transition.For fields with different pulse lengths,the phase and chirp influences upon the pair production are also explored.
作者
REN Na
WANG Jia-Xiang
LI An-Kang
WANG Ping-Xiao
任娜;王加祥;李安康;王平晓(State Key Laboratory of Precision Spectroscopy,East China Normal University,Shanghai 200062;Key Laboratory of Applied Ion Beam Physics Laboratory(Ministry of Education)and Institute of Modern Physics,Department of Nuclear Science and Technology,Fudan University,Shanghai 200433)
基金
Supported by the National Natural Science Foundation of China under Grant No 10974056 and 10975036
Shanghai Pujiang Talent Project under Grant No 07pj14036.
