2019
DOI: 10.1103/physreva.100.012103
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Pulse engineering for population control under dephasing and dissipation

Abstract: We apply reverse-engineering to find electromagnetic pulses that allow for the control of populations in quantum systems under dephasing and thermal noises. In particular, we discuss two-level systems given their importance in the description of several molecular systems as well as quantum computing. Such an investigation naturally finds applications in a multitude of physical situations involving the control of quantum systems. We present an analytical description of the pulse which solves a constrained dynam… Show more

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Cited by 29 publications
(16 citation statements)
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“…It is meaningful to compare our scheme with the reverse engineering scheme of the Markovian quantum systems [31,43]. For the Markovian quantum systems, it shows that the quantum state is not dynamically controllable [23,33].…”
Section: Conclusion and Discussionmentioning
confidence: 99%
“…It is meaningful to compare our scheme with the reverse engineering scheme of the Markovian quantum systems [31,43]. For the Markovian quantum systems, it shows that the quantum state is not dynamically controllable [23,33].…”
Section: Conclusion and Discussionmentioning
confidence: 99%
“…The error rates of populations control in Ref. [37] under serious decoherence are almost zero, an exciting result. Some follow-up studies [39,40] have made a lot of additions to the application scenarios, but still remaining in two-level open systems.…”
mentioning
confidence: 92%
“…Recently, Medina and Semião [37] have directly set the density operator with time-dependent parameters and then submitted them to the Markovian master equation [38], which gives appropriate functions of pulses to control the populations in two-level open systems. The error rates of populations control in Ref.…”
mentioning
confidence: 99%
“…One of the simplest paradigmatic examples encompasses a two-level quantum system, a qubit, subjected to a classical drive field which promotes population dynamics in the eigenbasis of the bare qubit. Despite its simplicity, such a model has been applied in many contexts ranging from the coherent control in quantum computing to the simulation of a number of important photochemical reactions [3][4][5][6][7][8][9][10][11][12]. Moreover, its properties have been investigated through different descriptions such as the dressed and Floquet state formalisms [13][14][15][16][17][18], also being associated with various physical phenomena, such as coherent suppression of tunneling [14,19,20] and interference between successive Landau-Zener transitions [21][22][23][24][25].…”
Section: Introductionmentioning
confidence: 99%