Double gluon fragmentation to $J/ψ$ pairs at the Tevatron

V. Barger; S. Fleming; R. J. N. Phillips

Double gluon fragmentation to $J/ψ$ pairs at the Tevatron

V. Barger, S. Fleming, R. J. N. Phillips

Abstract

It has been proposed that the large cross sections for prompt $ψ$, $ψ'$, and $χ_c$ production at the Fermilab Tevatron $p\bar p$ collider can be explained by a dominant color-octet term in the fragmentation function for a gluon to split into quarkonium. We show that this mechanism makes testable predictions for double-quarkonium $ψψ$, $ψψ'$, $ψχ_c$, $ψΥ$ and $ψχ_b$ production, as well as for $W ψ$ production, using color-octet matrix elements previously determined from charmonium production data. The $ψψ$ signal would already be measurable at the Tevatron, while the $ψχ_c$ and $Wψ$ signals would be on the edge of present detectability.

Double gluon fragmentation to $J/ψ$ pairs at the Tevatron

Abstract

It has been proposed that the large cross sections for prompt

, and

production at the Fermilab Tevatron

collider can be explained by a dominant color-octet term in the fragmentation function for a gluon to split into quarkonium. We show that this mechanism makes testable predictions for double-quarkonium

and

production, as well as for

production, using color-octet matrix elements previously determined from charmonium production data. The

signal would already be measurable at the Tevatron, while the

and

signals would be on the edge of present detectability.

Double gluon fragmentation to $J/ψ$ pairs at the Tevatron

Abstract

Double gluon fragmentation to $J/ψ$ pairs at the Tevatron

Abstract

Paper Structure

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