Self-Force of a Dirac String: An Explicit Calculation

Abstract

A Dirac string can be modeled as a semi-infinite solenoid carrying a fixed magnetic flux. Dirac pointed out that such a string should experience a nonvanishing and divergent self-force, but explicit calculations are rarely shown. Motivated by a recent comment by McDonald, we present a direct and elementary derivation of this self-force. Treating the string as a stack of current loops, we compute the axial force produced by the radial magnetic field generated by the rest of the solenoid. The resulting force, F=2/(2πμ0 a2), diverges as the solenoid radius a0 with flux fixed, making explicit the singular nature of the Dirac string.

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