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Electron-positron pair production in combined Sauter potential wells
arXiv
Authors: Binbing Wu, Li Wang, B. S. Xie
Year
2019
Paper ID
14371
Status
Preprint
Abstract Read
~2 min
Abstract Words
140
Citations
N/A
Abstract
Electron-positron pair production, in combined Sauter potential wells and an oscillating one is imposed on a static Sauter potential, is investigated by using the computational quantum field theory. We find that the gain number (the difference of pair number under combined potentials to the simple addition of pair number for each potential) of the created pairs depends strongly on the depth of static potential and the frequency of oscillating potential. In particular, it is more sensitive to the frequency compared with the depth. For the low-frequency multiphoton regime, the gaining is almost positive and exhibits interesting nonlinear characteristics on both depth and frequency. For the single-photon regime, however, the gaining is almost negative and decreases near linearly with depth while it exhibits an oscillation characteristic with frequency. Furthermore, the optimal frequency and depth of gain number are found and discussed.
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- It adds a 2019 reference point for readers tracking recent quantum research.
- Electron-positron pair production, in combined Sauter potential wells and an oscillating one is imposed on a static Sauter potential, is investigated by using the computational...
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