We formulate a 4–dimensional higher gauge theoretic Chern–Simons theory. Its symmetry is encoded in a semistrict Lie 2–algebra equipped with an invariant non singular bilinear form. We analyze the gauge invariance of the theory and show that action is invariant under a higher gauge transformation up to a higher winding number. We find that the theory admits two seemingly inequivalent canonical quantizations. The first is manifestly topological, it does not require a choice of any additional structure on the spacial 3–fold. The second, more akin to that of ordinary Chern–Simons theory, involves fixing a CR structure on the latter. Correspondingly, we obtain two sets of semistrict higher WZW Ward identities and we find the explicit expressions of two higher versions of the WZW action. We speculate that the model could be used to define 2–knot invariants of 4–folds.
4-D semistrict higher Chern-Simons theory I / E. Soncini; R. Zucchini. - In: JOURNAL OF HIGH ENERGY PHYSICS. - ISSN 1029-8479. - ELETTRONICO. - 1410 (2014) 79:(2014), pp. 1-64. [10.1007/JHEP10(2014)079]
4-D semistrict higher Chern-Simons theory I
SONCINI, EMANUELE;ZUCCHINI, ROBERTO
2014
Abstract
We formulate a 4–dimensional higher gauge theoretic Chern–Simons theory. Its symmetry is encoded in a semistrict Lie 2–algebra equipped with an invariant non singular bilinear form. We analyze the gauge invariance of the theory and show that action is invariant under a higher gauge transformation up to a higher winding number. We find that the theory admits two seemingly inequivalent canonical quantizations. The first is manifestly topological, it does not require a choice of any additional structure on the spacial 3–fold. The second, more akin to that of ordinary Chern–Simons theory, involves fixing a CR structure on the latter. Correspondingly, we obtain two sets of semistrict higher WZW Ward identities and we find the explicit expressions of two higher versions of the WZW action. We speculate that the model could be used to define 2–knot invariants of 4–folds.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
