This stand-alone binary will accept three arguments on standard input
(space separated on a single line) and will write the resolution
values on standard output.
- <#1483#>Input:<#1483#>
- ~
- total magnitude of momentum in GeV/#tex2html_wrap_inline387#
- dip angle in radians (polar angle referenced from #tex2html_wrap_inline389# in
the lab; #math9##tex2html_wrap_inline391# there #tex2html_wrap_inline393# is the standard
polar angle)
- mass in GeV/#tex2html_wrap_inline395#
- <#1484#>Output:<#1484#>
- ~
- relative resolution in transverse momentum (#math10##tex2html_wrap_inline397#)
- resolution in azimuthal angle (#tex2html_wrap_inline399#)
- resolution in polar angle (#tex2html_wrap_inline401#)
For example:
verbatim7#
says that a 1~GeV/#tex2html_wrap_inline403# particle traveling in a direction 1.22 radians
forward of the transverse direction with a mass of 139~MeV has an
estimated #math11##tex2html_wrap_inline405#, #math12##tex2html_wrap_inline407#~mrad, and
#math13##tex2html_wrap_inline409#~mrad.