Effects of Temperature and Electric Field on the Coherence Time of a RbCl Parabolic Quantum Dot Qubit |
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| Authors: | Wei?Xiao Email author" target="_blank">Jing-Lin?XiaoEmail author |
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| Institution: | 1.Department of Basic Sciences,University of Informational Science and Technology of Beijing,Beijing,China;2.Institute of Condensed Matter Physics,Inner Mongolia University for the Nationalities,Tongliao,China |
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| Abstract: | We study the effects of the temperature and electric field on the coherence time of a RbCl parabolic quantum dot (PQD) qubit by using the variational method of Pekar type, the Fermi Golden Rule and the quantum statistics theory (VMPTFGRQST). The ground and the first excited states’ (GFES) eigenenergies and the eigenfunctions of an electron in the RbCl PQD with an applied electric field are derived. A single qubit can be realized in this two-level quantum system. It turns out that the coherence time is a decreasing function of the temperature and the electric field, whereas it is an increasing one of the effective confinement length (ECL). By changing the electric field, the temperature and the ECL one can adjust the coherence time. Our research results may be useful for the design and implementation of solid-state quantum computation. |
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