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I'm wondering, for no particular reason: are there differentiable vector-valued functions $\vec{f}(\vec{x})$ in three dimensions, other than the constant function $\vec{f}(\vec{x}) = \vec{C}$, that have zero divergence and zero curl? If not, how would I prove that one doesn't exist?

I had a vague memory of learning some reason that such a function doesn't exist, but there's a pretty good chance my mind is just making things up to trick me ;-) But I thought about it for a little while and couldn't think of another divergence-free curl-free function off the top of my head, so I'm curious whether I was thinking of real math or not.

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How about Gradient of a harmonic function?

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For example a constant field is harmonic, but doesn't satisfy the normal boundary conditions at infinity. In any topological space, there is one harmonic field per winding number satisfying given boundary conditions (Hodge decomposition theorem).