Phase slip solutions in magnetically modulated Taylor–Couette flow

Abstract: We numerically investigate Taylor-Couette flow in a wide-gap configuration, with r i /r o = 1/2, the inner cylinder rotating, and the outer cylinder stationary. The fluid is taken to be electrically conducting, and a magnetic field of the form B z ≈ (1 + cos(2πz/z 0 ))/2 is externally imposed, where the wavelength z 0 = 50(r o − r i ). Taylor vortices form where the field is weak, but not where it is strong. As the Reynolds number measuring the rotation rate is increased, the initial onset of vortices involves… Show more