Stress and Strain: T^{μν} of Higher Spin Gauge Fields
arXiv:hep-th/0403059
Abstract
We present some results concerning local currents, particularly the stress tensors T^{μν}, of free higher (>1) spin gauge fields. While the T^{μν} are known to be gauge variant, we can express them, at the cost of manifest Lorentz invariance, solely in terms of (spatially nonlocal) gauge-invariant field components, where the "scalar" and "spin" aspects of the systems can be clearly separated. Using the fundamental commutators of these transverse-traceless variables we verify the Poincare algebra among its generators, constructed from the T^0_μand their moments. The relevance to the interaction difficulties of higher spin systems is mentioned.
5 pages. Invited paper: 27th Johns Hopkins Workshop on Current Problems in Particle Theory