This shows you the differences between two versions of the page.
Both sides previous revision Previous revision | Next revision Both sides next revision | ||
theorems:noethers_theorems [2018/04/12 15:22] bogumilvidovic [FAQ] |
theorems:noethers_theorems [2018/05/05 12:50] jakobadmin ↷ Links adapted because of a move operation |
||
---|---|---|---|
Line 292: | Line 292: | ||
</blockquote> | </blockquote> | ||
- | <blockquote>Noether’s 1918 theorem [41] relating infinitesimal “global” symmetries to conservation laws, is a cherished cornerstone of modern theoretical physics; however, the second theorem (appearing in the same work) applicable to “local” symmetry remains somewhat obscure [43]. Our goal is to use Noether’s second theorem as a starting point for a general approach to [[advanced_notions:ward_indentities|Ward identities]] for gauge symmetry. In particular, we are motivated by recent new Ward identities for large gauge symmetry in gravity and QED [4–6, 8–13], and recent discussions in [37]. (This assertion is based, in part, on informal discussions. An important exception is [[https://arxiv.org/abs/hep-th/0111246|44]], which introduced the authors | + | <blockquote>Noether’s 1918 theorem [41] relating infinitesimal “global” symmetries to conservation laws, is a cherished cornerstone of modern theoretical physics; however, the second theorem (appearing in the same work) applicable to “local” symmetry remains somewhat obscure [43]. Our goal is to use Noether’s second theorem as a starting point for a general approach to [[advanced_tools:ward_indentities|Ward identities]] for gauge symmetry. In particular, we are motivated by recent new Ward identities for large gauge symmetry in gravity and QED [4–6, 8–13], and recent discussions in [37]. (This assertion is based, in part, on informal discussions. An important exception is [[https://arxiv.org/abs/hep-th/0111246|44]], which introduced the authors |
to Noether’s second theorem) | to Noether’s second theorem) | ||