Self-energy and critical temperature of weakly interacting bosons

Abstract

Using the exact renormalization group we calculate the momentum-dependent self-energy Sigma (k) at zero frequency of weakly interacting bosons at the critical temperature Tc of Bose-Einstein condensation in dimensions 3 <= D < 4. We obtain the complete crossover function interpolating between the critical regime k << kc, where Sigma (k) propto k2 - eta, and the short-wavelength regime k >> kc, where Sigma (k) propto k2 (D-3) in D> 3 and Sigma (k) ln (k/kc) in D=3. Our approach yields the crossover scale kc on the same footing with a reasonable estimate for the critical exponent eta in D=3. From our Sigma (k) we find for the interaction-induced shift of Tc in three dimensions Delta Tc / Tc approx 1.23 a n1/3, where a is the s-wave scattering length and n is the density.

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