Dr Michael Teper

Identifying monopoles on a lattice

Physical Review D 48:6 (1993) 2881-2890

Authors:

Z Schram, M Teper

Abstract:

The U(1) Villain model is simulated in three and four dimensions. We locate monopoles using both the conventional DeGrand-Toussaint prescription and the exact prescription as provided by the model itself. The two monopole gases thus obtained are compared, in particular with respect to their confining and percolation properties. In this way we investigate to how strong a coupling the conventional definition of lattice monopoles remains reliable. We show that in the interesting range of "intermediate" couplings (β0.3) the difference between the two monopole gases can be very well reproduced by a random distribution of dipoles (which possesses trivial long-distance properties). This suggests that the DeGrand-Toussaint prescription can indeed be meaningfully used in studies of, for example, the U(1) phase transition and the monopole mechanism for non-Abelian confinement. © 1993 The American Physical Society.

QCD with 2 light quark flavours: Thermodynamics on a 16³ × 8 lattice and glueballs and topological charge on a 16³ × 32 lattice

Nuclear Physics B (Proceedings Supplements) 30:C (1993) 315-318

Authors:

KM Bitar, R Edwards, S Gottlieb, UM Heller, AD Kennedy, S Kim, JB Kogut, A Krasnitz, W Liu, MC Ogilvie, RL Renken, DK Sinclair, RL Sugar, M Teper, D Toussaint, KC Wang

Abstract:

The HTMCGC collaboration has been simulating lattice QCD with two light staggered quarks with masses mq = 0.0125 and also mq = 0.00625 on a 163 × 8 lattice. We have been studying the behaviour of the transition from hadronic matter to a quark-gluon plasma and the properties of that plasma. We have been measuring entropy densities, Debye and hadronic screening lengths, the spacial string tension and topological susceptibility in addition to the standard order parameters. The HEMCGC collaboration has simulated lattice QCD with two light staggered quarks, mq = 0.025 and mq = 0.010 on a 163 × 32 lattice. We have measured the glueball spectrum and topological susceptibilities for these runs. © 1993.

Some physical properties of SU(2) gauge fields in three dimensions

Nuclear Physics B (Proceedings Supplements) 30:C (1993) 529-532

Abstract:

We calculate (part of) the glueball mass spectrum, the string tension and the deconfining temperature for D=2+1 SU(2) lattice gauge theory. We are able to perform an accurate extrapolation to the continuum limit. We compare our results with those available in D=3+1 and comment upon the similarities and differences. © 1993.

LATTICE MONOPOLES IN THE VILLAIN MODEL

NUCLEAR PHYSICS B (1993) 579-582

Authors:

Z SCHRAM, M TEPER

Some physical properties of SU (2) gauge theories in three dimensions

Physics Letters B 289:1-2 (1992) 115-121

Abstract:

We calculate the string tension and (part of) the glueball mass spectrum for SU (2) lattice gauge theory in three dimensions with the plaquette action. We extrapolate the masses and mass ratios to the continuum limit. We note and comment upon some remarkable similarities and differences between the three- and four-dimensional theories. © 1992.