Particle theory

ND Tadpoles as New String States and Quantum Mechanical Particle-Wave Duality from World-Sheet T-Duality

ArXiv hep-th/9703141 (1997)

Authors:

Ian I Kogan, John F Wheater

Abstract:

We consider new objects in bosonic open string theory -- ND tadpoles, which have N(euman) boundary conditions at one end of the world-sheet and D(irichlet) at the other, must exist due to s-t duality in a string theory with both NN strings and D-branes. We demonstrate how to interpolate between N and D boundary conditions. In the case of mixed boundary conditions the action for a quantum particle is induced on the boundary. Quantum-mechanical particle-wave duality, a dual description of a quantum particle in either the coordinate or the momentum representation, is induced by world-sheet T-duality. The famous relation between compactification radii is equivalent to the quantization of the phase space area of a Planck cell. We also introduce a boundary operator - a ``Zipper'' which changes the boundary condition from N into D and vice versa.

ND Tadpoles as New String States and Quantum Mechanical Particle-Wave Duality from World-Sheet T-Duality

(1997)

Authors:

Ian I Kogan, John F Wheater

On the phase diagram of the SU(2) adjoint Higgs model in 2+1 dimensions

Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics 396:1-4 (1997) 217-224

Authors:

A Hart, O Philipsen, JD Stack, M Teper

Abstract:

The phase diagram is investigated for SU(2) lattice gauge theory in d = 3, coupled to adjoint scalars. For small values of the quartic scalar coupling, λ, the transition separating Higgs and confinement phases is found to be first-order, in agreement with earlier work by Nadkarni. The surface of second-order transitions conjectured by Nadkarni, however, is shown instead to correspond to crossover behaviour. This conclusion is based on a finite size analysis of the scalar mass and susceptibility. The nature of the phase transition at the termination of first-order behaviour is investigated and we find evidence for a critical point at which the scalar mass vanishes. The photon mass and confining string tension are measured and are found to be negligibly small in the Higgs phase. This is correlated with the very small density of magnetic monopoles in the Higgs phase. The string tension and photon mass rise rapidly as the crossover is traversed towards the symmetric phase. © 1997 Elsevier Science B.V.

Comments on the high-$Q^2$ HERA anomaly

(1997)

Authors:

KS Babu, Christopher Kolda, John March-Russell, Frank Wilczek

Structure functions and angular ordering at small x

(1997)

Authors:

G Bottazzi, G Marchesini, GP Salam, M Scorletti