Final state interaction in the production of heavy unstable particles

We calculate the one-loop non-factorizable QCD corrections to the production and decay of pairs of top quarks at various collider experiments. These non-factorizable corrections interconnect the different production and decay stages of the off-shell top-pair production processes. This in particular affects the invariant-mass distributions of the off-shell top quarks, resulting in a shift of the maximum of the distorted Breit-Wigner distributions. Although the nonfactorizable corrections can be large, the actual shift in the mass as determined from the peak position of the corrected Breit-Wigner line-shape is below 100 MeV.

show abstract

“…[13] were confirmed by an independent calculation [14] as well as by a re-analysis of the results of Ref. [12].…”

Section: Introductionsupporting

confidence: 56%

“…[13] the non-factorizable corrections were calculated for W -pair production, revealing differences with the results of Ref. [12]. The results of Ref.…”

Section: Introductionmentioning

confidence: 87%

See 1 more Smart Citation

One-loop QCD interconnection effects in pair production of top quarks

1999

View full text Add to dashboard Cite

show abstract

“…Special attention should be payed to the radiative interferences (both virtual and real) which interconnect the production and the decay stages of the process (1). In particular, there is a class of contributions corresponding to the so-called "charged-particle poles" [1,2,3,4], which may induce strong dependence of differential distributions on the W -boson virtualities. The final-state interactions may result in non-factorizable QED radiative corrections to the Born cross-section of (1).…”

Section: Introductionmentioning

confidence: 99%

Screened-Coulomb ansatz for the nonfactorizable radiative corrections to off-shell $W^+W^-$ production

Chapovsky¹,

Хозе²

1999

Eur. Phys. J. C

View full text Add to dashboard Cite

We demonstrate that the results of the complete first order calculation of the non-factorizable QED corrections to the single-inclusive cross-sections for e + e − → W + W − → 4 fermions could be very well reproduced by a simple physically motivated ansatz. The latter allows to take into account effectively the screening role of the non-Coulomb radiative mechanisms by introducing a dampening factor in front of the width-dependent part of the known first-order Coulomb correction, the so-called screened-Coulomb ansatz.

show abstract

“…Whereas the effects 1.1 and 1.2 are enhanced by logarithms originating from collinear photons, also non-enhanced O(α) effects have been studied. One of those belongs to the class of the so-called non-factorizable corrections [8]- [10], i.e. corrections that at first sight do not seem to have two overall W propagators as factors.…”

Section: Final-state Radiation (Fsr)mentioning

confidence: 99%

Radiative corrections to pair production of unstable particles: Results for E+E− → 4 fermions

1999

View full text Add to dashboard Cite

Radiative corrections to processes that involve the production and subsequent decay of unstable particles are complex due to various theoretical and practical problems. The so-called double-pole approximation offers a way out of these problems. This method is applied to the reaction e + e − → W + W − → 4 fermions, which allows us to address all the key issues of dealing with unstable particles, like gauge invariance, interactions between different stages of the reaction, and overlapping resonances. Within the double-pole approximation the complete O(α) electroweak corrections are evaluated for this off-shell W -pair production process. Examples of the effect of these corrections on a number of distributions are presented. These comprise mass and angular distributions as well as the photon-energy spectrum.

show abstract

Final state interaction in the production of heavy unstable particles

Cited by 60 publications

References 16 publications

One-loop QCD interconnection effects in pair production of top quarks

One-loop QCD interconnection effects in pair production of top quarks

Screened-Coulomb ansatz for the nonfactorizable radiative corrections to off-shell $W^+W^-$ production

Radiative corrections to pair production of unstable particles: Results for E+E− → 4 fermions

Contact Info

Product

Resources

About