# Harmonic Maps

**Idea:**Given $(\mathcal{M}, g_{\mu\nu})$ and $(\mathcal{N}, h_{\alpha\beta})$ Riemannian manifolds with their metrics, a smooth map $\psi: \mathcal{M} \to \mathcal{N}$ is called Harmonic if its coordinate representative (say $\phi(x)$) satisfy a certain nonlinear PDE.**Definition:**$\psi$ is called*Harmonic map*if its laplacian vanishes. i.e. $\Delta_{x} \phi(x) = 0$ where $\Delta_{x} := \frac{1}{\sqrt{g(x)}} \frac{\partial}{\partial x^{\mu}} ( \sqrt{g(x)} g^{\mu\nu}(x) ) \frac{\partial}{\partial x^{\nu}}$**Definition:**$\psi$ is called*totally geodesic*if its hessian vanishes.

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Published onJul 5, 2021

Last revised onJul 5, 2021