Uhlenbeck's singularity theorem

For the closed disk ${\displaystyle B^{n}\setminus \{0\}:=\{x\in \mathbb {R} ^{n}|\|x\|\leq 1\}}$  and a vector bundle ${\displaystyle \eta \twoheadrightarrow B^{4}\setminus \{0\}}$  with structure group ${\displaystyle G}$ , a Yang–Mills connection ${\displaystyle A\in \Omega ^{1}(B^{4}\setminus \{0\},\operatorname {Ad} (\eta ))}$  with finite energy:

${\displaystyle \int _{B^{4}}\|F_{A}\|^{2}\mathrm {d} \operatorname {vol} _{g}<\infty }$ 

the vector bundle ${\displaystyle \eta \twoheadrightarrow B^{4}\setminus \{0\}}$  extends to a smooth vector bundle ${\displaystyle {\overline {\eta }}\twoheadrightarrow B^{4}}$  and the Yang–Mills connection ${\displaystyle A\in \Omega ^{1}(B^{4}\setminus \{0\},\operatorname {Ad} (\eta ))}$  extends to a smooth Yang–Mills connection ${\displaystyle {\overline {A}}\in \Omega ^{1}(B^{4},\operatorname {Ad} ({\overline {\eta }}))}$ .^[2]

• Uhlenbeck's compactness theorem, also first published in the same journal

• Uhlenbeck, Karen (February 1982). "Removable Singularities in Yang-Mills Fields". Communications in Mathematical Physics. 83: 11–29. doi:10.1007/BF01947068.
• Tao, Terence; Tian, Gang (2002-09-25). "A singularity removal theorem for Yang-Mills fields in higher dimensions". arXiv:math/0209352.