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Comparison of quantum kinetic theory and time-dependent Dirac equation approaches in vacuum pair production and the bound states resonance enhanced mechanism

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arxiv 1708.08565 v1 pith:SQAHOY6G submitted 2017-08-29 quant-ph physics.comp-ph

Comparison of quantum kinetic theory and time-dependent Dirac equation approaches in vacuum pair production and the bound states resonance enhanced mechanism

classification quant-ph physics.comp-ph
keywords boundapproachdiracenhancedequationfieldhomogeneouskinetic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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A remarkable quantitative agreement is found between the non-Markovian quantum kinetic approach and the time-dependent Dirac equation approach for a large region of Keldysh parameter, in the investigation of electron-positron pair production in the electric fields which is spatially homogeneous and envelope pulse shaped. If a sub-critical bound potential is immersed in this background field, the TDDE results show that the creation probability will be enhanced by the bound states resonance by two orders of magnitude. We also establish a computing resources greatly saved TDDE formalism for spatially homogeneous field.

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