Professor Taylor's main research areas are superstring theory and in general, supersymmetric theories of fundamental interactions. Professor Taylor's research is focussed on the computations of physical quantities like couplings and masses and in general, on the large-distance, macroscopic behaviour of superstring theory. He has also a long research record on the problem of supersymmetry breaking.
Articles
Direct production of lightest Regge resonances (with W. Z. Feng, D. Lüst, and S. Stieberger), Physics Faculty Publications (2010)
We discuss direct production of Regge excitations in the collisions of massless four-dimensional superstring states,...
Complete six-gluon disk amplitude in superstring theory (with Stephan Stieberger), Physics Faculty Publications (2008)
We evaluate all next-to-maximal helicity violating (NMHV) six-gluon amplitudes in type I open superstring theory...
Decay widths of lowest massive Regge excitations of open strings (with Luis A. Anchordoqui and Haim Goldberg), Physics Faculty Publications (2008)
With the advent of the LHC there is widespread interest in the discovery potential for...
Dijet signals for low mass strings at the LHC (with Luis A. Anchordoqui, Haim Goldberg, Dieter Lüst, Satoshi Nawata, and Stephan Stieberger), Physics Faculty Publications (2008)
We consider extensions of the standard model based on open strings ending on D-branes, with...
Direct photons as probes of low mass strings at the LHC (with Luis A. Anchordoqui, Haim Goldberg, and Satoshi Nawata), Physics Faculty Publications (2008)
The LHC program will include the identification of events with single prompt high-k_\perp photons as...