Difference between revisions of "Angular distance"

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The '''angular distance''' (or '''angular separation''') between two [[Object|objects]] tells how much two objects are moving in the same direction. It is usually denoted '''ΔR''' ('''delta R''').
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[[Category:Basic concept]]
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[[Category:Collider physics]]
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The '''angular distance''' (or '''angular separation''') between two [[Object|objects]] tells how much two objects are moving in the same direction. It is usually denoted '''ΔR''' ('''Delta R''').
  
 
== At hadron colliders ==
 
== At hadron colliders ==
At [[Hadron collider|hadron colliders]], the angular distance is usually defined in a way that is [[Longitudinal boost invariance|invariant under longitudinal boosts]]. This is achieved by using the [[pseudorapidity]] difference <math>\Delta\eta</math> of the objects rather than an actual angle. In the [[transverse plane]], the momentum of the [[initial state]] is ([[Primordial kt|essentially]]) zero, so the [[azimuthal angle]] difference <math>\Delta\phi</math> can be used directly.
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At [[Hadron collider|hadron colliders]], the angular distance is usually defined in a way that is [[Longitudinal boost invariance|invariant under longitudinal boosts]]. This is achieved by using the [[pseudorapidity]] difference <math>\Delta\eta</math> of the objects rather than an actual angle. In the [[transverse plane]], the momentum of the [[initial state]] is ([[Primordial kt|essentially]]) zero, so the [[azimuthal angle]] difference <math>\Delta\phi</math> can be used directly. This gives the definition:
 
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:<math>\Delta R = \sqrt{(\Delta\eta)^2 + (\Delta\phi)^2}.</math>
<math>\Delta R = \sqrt{(\Delta\eta)^2 + (\Delta\phi)^2}</math>
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== At lepton colliders ==
 
== At lepton colliders ==
 
At [[Lepton collider|lepton colliders]], the vector angle between the object momenta may be used directly.
 
At [[Lepton collider|lepton colliders]], the vector angle between the object momenta may be used directly.

Latest revision as of 19:09, 17 July 2017

The angular distance (or angular separation) between two objects tells how much two objects are moving in the same direction. It is usually denoted ΔR (Delta R).

At hadron colliders

At hadron colliders, the angular distance is usually defined in a way that is invariant under longitudinal boosts. This is achieved by using the pseudorapidity difference \Delta\eta of the objects rather than an actual angle. In the transverse plane, the momentum of the initial state is (essentially) zero, so the azimuthal angle difference \Delta\phi can be used directly. This gives the definition:

\Delta R = \sqrt{(\Delta\eta)^2 + (\Delta\phi)^2}.

At lepton colliders

At lepton colliders, the vector angle between the object momenta may be used directly.