SCT Radiation Length Plots
Radiation length plots of the SCT barrel using tag SCT-DC3-05; 16th October 2006.
These plots show the mean number of radiation lengths traversed by a particle originating from (0,0,0)
as a function of pseudorapidity, assuming a flat phi distribution, for the material of the SCT barrel only.
These plots show the mean number of radiation lengths as a function of pseudorapidity traversed by particles
generated with the default vertex position smearing and a flat phi distribution, for the material of the SCT
barrel only.
These plots show the mean number of radiation lengths traversed by a particle with eta=0 originating from (0,0,z)
as a function of z, assuming a flat phi distribution, for the material of the SCT barrel only.
Radiation length plots of the SCT endcap using tag SCT-DC3-05; 12th January 2007.
These plots show the mean number of radiation lengths traversed by a particle originating from (0,0,0)
as a function of pseudorapidity, assuming a flat phi distribution, for the material of the SCT endcap only.
These plots show the mean number of radiation lengths as a function of pseudorapidity traversed by particles
generated with the default vertex position smearing and a flat phi distribution, for the material of the SCT
endcap only.
These plots show the mean number of radiation lengths traversed by a particle with eta=0 originating from (0,0,z)
as a function of z, assuming a flat phi distribution, for the material of the SCT endcap only.
These plots show the mean number of radiation lengths traversed by a particle originating from (0,0,0)
as a function of phi, assuming a flat pseudorapidity distribution, for the material of the SCT endcap only.
These plots show the mean number of radiation lengths as a function of phi traversed by particles generated
with the default vertex position smearing and a flat pseudorapidity distribution, for the material of the SCT
endcap only.
These plots show the mean number of radiation lengths traversed by a particle with eta=0 originating from (0,0,z)
as a function of phi, assuming a flat z distribution in 810-2810 mm, for the material of the SCT endcap only.
These plots show the mean number of radiation lengths traversed by a particle with eta=0 originating from (0,0,z)
as a function of z and phi for the material of the SCT endcap only.
These plots show the mean number of radiation lengths traversed by a particle travelling parallel to the beam axis (z) as a
function of (x,y) for the material of one SCT endcap only.
Last modified: Tue Jul 10 15:46:25 BST 2007