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Phase control in a coherent superposition of degenerate quantum states through frequency control

✍ Scribed by Manfred Heinz; Frank Vewinger; Ulrich Schneider; Leonid P. Yatsenko; Klaas Bergmann

Publisher
Elsevier Science
Year
2006
Tongue
English
Weight
369 KB
Volume
264
Category
Article
ISSN
0030-4018

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✦ Synopsis

We demonstrate a controlled phase change of p in a degenerate superposition by altering a laser frequency by only 10 MHz. The method relies on the preparation of an adiabatic state involving the M = Β±2 and M = 0 states of the 3 P 2 (J = 2) level of metastable neon. Dependent on the frequency, the preparation proceeds either by stimulated Raman adiabatic passage (STIRAP) or by coherent population trapping (CPT). In the former case the superposition is prepared by adiabatic transfer induced in an extended tripod linkage scheme. In the latter case population is optically pumped into the Zeeman manifold of the level 3 P 2 . The population which does not reach a dark state decays to the ground state of neon. The amplitudes and relative phases of the dark states differ for the two cases. The phase change is monitored using the method of phase-to-population mapping.

πŸ“œ SIMILAR VOLUMES

Phase control of spin coherence in elect
Phase control of spin coherence in electronic triplet states by two-frequency microwave excitation
✍ E. Van Oort; P.A. Van Leeuwen; M. Glasbeek πŸ“‚ Article πŸ“… 1989 πŸ› Elsevier Science 🌐 English βš– 480 KB

The phase of a coherent excitation of a spin transition within an electron spin triplet state can be controlled by the pulsed coherent excitation of a second transition within the triplet. Experimentally the effect is demonstrated for localized defect triplet states in calcium oxide and diamond crys