The production of pairs of hadrons in hadronic collisions is studied using a next-to-leading-order Monte Carlo program based on the phase space slicing technique. Up-to-date fragmentation functions based on fits to LEP data are employed, together with several versions of current parton distribution functions. Good agreement is found with data for the dihadron mass distribution. A comparison is also made with data for the dihadron angular distribution. The scale dependence of the predictions and the dependence on the choices made for the fragmentation and parton distribution functions are also presented. The good agreement between theory and experiment is contrasted to the case for single pion production where significant deviations between ...
Recent work in inter-jet energy flow has identified a class of leading logarithms previously not con...
We present and test a new method for simulating dynamical fermions with fat links. Our construction ...
We explain how masses and matrix elements can be computed in lattice QCD using Schr"odinger function...
We present some results concerning the Bose-Einstein effect in asymmetric sources in Monte Carlo gen...
We describe preliminary results from an effort to quantify the uncertainties in parton distribution ...
We compute the one-loop radiative corrections to the masses of the top quark, the stop squarks and t...
We study the potential of high-energy linear $e^+e^-$ colliders for the production of gluino pairs w...
Quark propagators with arbitrary sources and sinks can be obtained more efficiently using a pseudofe...
We study hot nuclear matter in a model based on nucleon interactions deriving from the exchange of s...
The three-dimensional real scalar model, in which the $Z_2$ symmetry spontaneously breaks, is renorm...
We present a scaling investigation of some correlation functions in $\Or(a)$ improved quenched latti...
We study the effective Hamiltonian for strong-coupling lattice QCD in the case of non-zero baryon de...
Two photon decay widths of the $J^P = O^+$ scalar mesons $a_{0} (980)$, $f_{0}(980)$, $f_{0}(1370)$ ...
The three moments of inertia associated with the wobbling mode built on the superdeformed states in ...
Staggered fermions with smeared links can have greatly improved chiral properties. In a recent paper...
Recent work in inter-jet energy flow has identified a class of leading logarithms previously not con...
We present and test a new method for simulating dynamical fermions with fat links. Our construction ...
We explain how masses and matrix elements can be computed in lattice QCD using Schr"odinger function...
We present some results concerning the Bose-Einstein effect in asymmetric sources in Monte Carlo gen...
We describe preliminary results from an effort to quantify the uncertainties in parton distribution ...
We compute the one-loop radiative corrections to the masses of the top quark, the stop squarks and t...
We study the potential of high-energy linear $e^+e^-$ colliders for the production of gluino pairs w...
Quark propagators with arbitrary sources and sinks can be obtained more efficiently using a pseudofe...
We study hot nuclear matter in a model based on nucleon interactions deriving from the exchange of s...
The three-dimensional real scalar model, in which the $Z_2$ symmetry spontaneously breaks, is renorm...
We present a scaling investigation of some correlation functions in $\Or(a)$ improved quenched latti...
We study the effective Hamiltonian for strong-coupling lattice QCD in the case of non-zero baryon de...
Two photon decay widths of the $J^P = O^+$ scalar mesons $a_{0} (980)$, $f_{0}(980)$, $f_{0}(1370)$ ...
The three moments of inertia associated with the wobbling mode built on the superdeformed states in ...
Staggered fermions with smeared links can have greatly improved chiral properties. In a recent paper...
Recent work in inter-jet energy flow has identified a class of leading logarithms previously not con...
We present and test a new method for simulating dynamical fermions with fat links. Our construction ...
We explain how masses and matrix elements can be computed in lattice QCD using Schr"odinger function...