Abstract

We have performed Carr-Purcell-Meiboom-Gill (CPMG) experiments on xylene/water emulsions to understand the different molecular exchange processes present in the system. The experimental data were analyzed with a combination of nonlinear regression methods and a novel algorithm of inverse Laplace transform. The experimental results showed not only a great dispersion in the transversal relaxation rate but also a very rich branched structure of its bifurcation map. This result introduces a completely new approach and methodology to understand molecular exchange processes.

Suppressing phase decoherence of a single atom qubit with Carr-Purcell-Meiboom-Gill sequence

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Opt. Express 21(26) 32130-32140 (2013)

Measurement of a¹²⁹Xe transverse relaxation rate without the influence of Rb polarization-induced magnetic gradient

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Appl. Opt. 60(24) 7290-7296 (2021)

Overcoming bifurcation instability in high-repetition-rate Ho:YLF regenerative amplifiers

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Opt. Lett. 40(23) 5427-5430 (2015)

Protecting a quantum memory for a photonic polarization qubit in a cold atomic ensemble by dynamical decoupling

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Opt. Express 22(19) 23360-23371 (2014)

Measurement of Excited State Relaxation Rates

W. R. Bennett, P. J. Kindlmann, and G. N. Mercer
Appl. Opt. 4(S1) 34-57 (1965)