Selective creation of maximum coherence in multi-level Λ system

Praveen Kumar; Svetlana A. Malinovskaya; Ignacio R. Sola; Vladimir S. Malinovsky

doi:10.1080/00268976.2013.809166

Selective creation of maximum coherence in multi-level Λ system

Praveen Kumar, Svetlana A. Malinovskaya, Ignacio R. Sola, Vladimir S. Malinovsky

Chemistry and Biochemistry

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

We consider the creation of the maximum Raman coherence in the six-level Λ system using optimal control theory. Optimal fields are designed for different initial conditions, resonant, and off-resonant, using the Krotov method including a reference field into the cost functional. Suppression of the population transfer to the intermediate level is achieved via an additional functional constraint which depends on the system dynamics. We demonstrate that the spectrum of the optimised fields has major contribution from the corresponding resonant frequencies independently of the choice of carrier frequency of the initial guess field. We also indicate that the pulse train emerges as a solution of the control problem of coherence optimisation in multi-level quantum systems.

Original language	English
Pages (from-to)	326-331
Number of pages	6
Journal	Molecular Physics
Volume	112
Issue number	3-4
DOIs	https://doi.org/10.1080/00268976.2013.809166
State	Published - Feb 16 2014

Keywords

Coherent population transfer
Optimal control theory
Pulse train
Raman coherence

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10.1080/00268976.2013.809166

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title = "Selective creation of maximum coherence in multi-level Λ system",

abstract = "We consider the creation of the maximum Raman coherence in the six-level Λ system using optimal control theory. Optimal fields are designed for different initial conditions, resonant, and off-resonant, using the Krotov method including a reference field into the cost functional. Suppression of the population transfer to the intermediate level is achieved via an additional functional constraint which depends on the system dynamics. We demonstrate that the spectrum of the optimised fields has major contribution from the corresponding resonant frequencies independently of the choice of carrier frequency of the initial guess field. We also indicate that the pulse train emerges as a solution of the control problem of coherence optimisation in multi-level quantum systems.",

keywords = "Coherent population transfer, Optimal control theory, Pulse train, Raman coherence",

author = "Praveen Kumar and Malinovskaya, {Svetlana A.} and Sola, {Ignacio R.} and Malinovsky, {Vladimir S.}",

note = "Funding Information: This research was supported in part by the National Science Foundation under Grant No. NSF PHY11-25915 and PHY12-05454.",

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T1 - Selective creation of maximum coherence in multi-level Λ system

AU - Kumar, Praveen

AU - Malinovskaya, Svetlana A.

AU - Sola, Ignacio R.

AU - Malinovsky, Vladimir S.

N1 - Funding Information: This research was supported in part by the National Science Foundation under Grant No. NSF PHY11-25915 and PHY12-05454.

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Y1 - 2014/2/16

N2 - We consider the creation of the maximum Raman coherence in the six-level Λ system using optimal control theory. Optimal fields are designed for different initial conditions, resonant, and off-resonant, using the Krotov method including a reference field into the cost functional. Suppression of the population transfer to the intermediate level is achieved via an additional functional constraint which depends on the system dynamics. We demonstrate that the spectrum of the optimised fields has major contribution from the corresponding resonant frequencies independently of the choice of carrier frequency of the initial guess field. We also indicate that the pulse train emerges as a solution of the control problem of coherence optimisation in multi-level quantum systems.

AB - We consider the creation of the maximum Raman coherence in the six-level Λ system using optimal control theory. Optimal fields are designed for different initial conditions, resonant, and off-resonant, using the Krotov method including a reference field into the cost functional. Suppression of the population transfer to the intermediate level is achieved via an additional functional constraint which depends on the system dynamics. We demonstrate that the spectrum of the optimised fields has major contribution from the corresponding resonant frequencies independently of the choice of carrier frequency of the initial guess field. We also indicate that the pulse train emerges as a solution of the control problem of coherence optimisation in multi-level quantum systems.

KW - Coherent population transfer

KW - Optimal control theory

KW - Pulse train

KW - Raman coherence

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Selective creation of maximum coherence in multi-level Λ system

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