Acoplanarity

In the context of experiments involving quantum chromodynamics, acoplanarity can arise from the emission of gluons from the scattered final state particles.

In particle physics, the acoplanarity of a scattering experiment measures the degree to which the paths of the scattered particles deviate from being coplanar. Measurements of acoplanarity provide a test of perturbative quantum chromodynamics, because QCD predicts that the emission of gluons can lead to acoplanar scattering events.^[1]

Measures of acoplanarity

For a two-jet final state, a useful measure of acoplanartiy is

\varphi = \pi-( \phi_2 - \phi_1 )

where $\phi_i$ are the azimuthal angles of the final state jets with respect to the beam line.^[2] An alternative measure of acoplanarity which is infrared safe and which works for broad jets of many particles is given by

A = 4 \min{ \left( \frac{ \sum_i |p_{out}^i| }{ \sum_i |p_i| } \right)^2}

where $p_i$ are the momenta of the final state particles and $p_{out}^i$ are the components of these momenta perpendicular to a plane chosen such that A is minimized.^[1] In the case of two coplanar final state particles, the plane which minimizes A would contain the paths of both particles and the beamline, and A would equal 0.

References

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[1]

[2]

Acoplanarity

Measures of acoplanarity

See also

References

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