Thursday, December 27, 2012

1212.5957 (R. Glenn et al.)

Magnetic resonance in slowly modulated longitudinal field: Modified
shape of the Rabi oscillations
   [PDF]

R. Glenn, M. E. Limes, B. Pankovich, B. Saam, M. E. Raikh
The sensitivity of the Rabi oscillations of a resonantly driven spin-1/2 system to a weak and slow modulation of the static longitudinal magnetic field, B_0, is studied theoretically. We establish the mapping of a weakly driven two-level system with modulation onto a strongly driven system without modulation. The mapping suggests that different regimes of spin dynamics, known for a strongly driven system, can be realized under common experimental conditions of weak driving (driving field B_ 1 << B_ 0) upon proper choice of the domains of modulation frequency, \omega_m, and amplitude, B_2. Fast modulation \omega_m >> \Omega_R, where \Omega_R is the Rabi frequency, emulates the regime of driving frequency much bigger than the resonant frequency. Strong modulation, B_2 >> B_1, emulates the regime B_1 >> B_0. Resonant modulation, \omega_m \approx \Omega_R, gives rise to an envelope of the Rabi oscillations. The shape of this envelope is highly sensitive to the detuning of the driving frequency from the resonance. Theoretical predictions for different domains of B_2 and \omega_m were tested experimentally using NMR of protons in water, where, without modulation, the pattern of Rabi oscillations could be observed over many periods. We present experimental results which reproduce the three predicted modulation regimes, and agree with theory quantitatively.
View original: http://arxiv.org/abs/1212.5957

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