The Hamiltonian theory of the fractional quantum Hall effect is an operator description that subsumes many properties of composite fermions, applies to gapped and gapless cases, and has been found to provide results in quantitative accord with data on gaps, relaxation rates, and polarizations at temperatures of 300 mK and above. The only free parameter is lambda, which is related to the sample thickness and appears in the Zhang-Das Sarma potential v(q)=2 pi e(2)/kappa q e(-ql lambda) where l and kappa are the magnetic length and dielectric constant. Here we examine the recent data of Tracy and Eisenstein on the nuclear magnetic resonance relaxation rate at filling factor nu=1/2 deduced from resistivity measurements at temperatures as low as 45 mK. We find that their results can be satisfactorily described by this theory, if in addition to a v(q) with lambda similar or equal to 2, a constant disorder width Gamma similar or equal to 100 mK is incorporated.
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