On the topology of adiabatic passage

C. Zener; D. Grischkowsky; H. P. Breuer; H. R. Jauslin; H. R. Jauslin; K. Bergmann; L. D. Landau; L. P. Yatsenko; L. P. Yatsenko; M. L. ter-Mikaelyan; M. M. T. Loy; M. V. Danileiko; R. G. Brewer; R. G. Unanyan; S. Chelkowski; S. Chelkowski; S. Guérin; S. Guérin; S. Guérin; S. Guérin; T. Rickes; V. I. Romanenko

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On the topology of adiabatic passage

Authors: C. Zener
D. Grischkowsky
H. P. Breuer
H. R. Jauslin
H. R. Jauslin
K. Bergmann
L. D. Landau
L. P. Yatsenko
L. P. Yatsenko
M. L. ter-Mikaelyan
M. M. T. Loy
M. V. Danileiko
R. G. Brewer
R. G. Unanyan
S. Chelkowski
S. Chelkowski
S. Guérin
S. Guérin
S. Guérin
S. Guérin
T. Rickes
V. I. Romanenko
Publication date: 11 July 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We examine the topology of eigenenergy surfaces characterizing the population transfer processes based on adiabatic passage. We show that this topology is the essential feature for the analysis of the population transfers and the prediction of its final result. We reinterpret diverse known processes, such as stimulated Raman adiabatic passage (STIRAP), frequency-chirped adiabatic passage and Stark-chirped rapid adiabatic passage (SCRAP). Moreover, using this picture, we display new related possibilities of transfer. In particular, we show that we can selectively control the level which will be populated in STIRAP process in Lambda or V systems by the choice of the peak amplitudes or the pulse sequence

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