This file contains the data points (expected and observed
cross section limits) corresponding to Figure 7 in
the Phys. Lett. B 680, 24 (2009) paper.

Theorists who want to use these data points to derive
limits on SUSY parameters should read carefully the
following to understand the assumptions made in the
derivation of the cross section limits. The theoretical
assumptions are described in detail in our Phys. Lett. 
B 660, 24 (2009) paper and summarised below.

Squark and gluino production and decay were simulated
with Pythia. The masses of the supersymmetric
particles were calculated with Suspect 2.3 from the
set of mSUGRA parameters. The decay widths
and branching ratios of all supersymmetric particles were
then calculated with Sdecay 1.1a. In order to allow
for an easier comparison with previous results, the following
parameters were fixed: A0 = -2m0, tan beta  = 15, and mu < 0.
The production of scalar top quarks (stops) was ignored,
and the squark mass is the average mass of all
squarks other than stops. All squark and gluino decay
modes were taken into account, including cascade decays
through charginos or neutralinos which could additionally
produce electrons, muons, or taus. The NLO cross
sections of the squark and gluino pair production were
calculated with Prospino 2.

If these cross limits are interpreted using different 
production cross-section matrix elements, these may cause 
changes in the acceptance thus invalidating the upper 
limits on the cross-section.

There should be no claim that a new limit obtrained
using different production cross-section matrix
elements is a D0 limit, but rather a limit based on D0 
data which may not be fully accurate for the reason listed 
above. We would appreciate being informed if the D0
cross section limits given below are used in this way
and we would appreciate if this disclaimer is included
in the presentation of the results.

In case of further questions please contact the
New Phenomena conveners or the D0 Physics Coordinators
(see http://www-d0.fnal.gov/Run2Physics/WWW/physics.htm
for the contact information).

     The D0 Collaboration

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m0=80 GeV, A0=-2m0, tanb=15, mu<0

x[i] = average m(squark) in GeV
y[i] = 95% CL excluded cross section in pb

Expected upper limit (jet combination):
  x[9] = 436.9; y[9] = 0.0557441
  x[8] = 416.7; y[8] = 0.0637644
  x[7] = 396.5; y[7] = 0.0724392
  x[6] = 376.4; y[6] = 0.0870368
  x[5] = 366.3; y[5] = 0.102911
  x[4] = 356.1; y[4] = 0.110163
  x[3] = 335.8; y[3] = 0.139765
  x[2] = 315.5; y[2] = 0.176429
  x[1] = 295.1; y[1] = 0.27695
  x[0] = 274.7; y[0] = 0.417336
Expected upper limit (jet+tau combination):
  x[9] = 436.9; y[9] = 0.0517623
  x[8] = 416.7; y[8] = 0.0587568
  x[7] = 396.5; y[7] = 0.0669129
  x[6] = 376.4; y[6] = 0.0773908
  x[5] = 366.3; y[5] = 0.0914766
  x[4] = 356.1; y[4] = 0.0995378
  x[3] = 335.8; y[3] = 0.124682
  x[2] = 315.5; y[2] = 0.153597
  x[1] = 295.1; y[1] = 0.25754
  x[0] = 274.7; y[0] = 0.379556
Observed upper limit (jet+tau combination):
  x[9] = 436.9; y[9] = 0.0507669
  x[8] = 416.7; y[8] = 0.0571988
  x[7] = 396.5; y[7] = 0.0621334
  x[6] = 376.4; y[6] = 0.0725455
  x[5] = 366.3; y[5] = 0.0838535
  x[4] = 356.1; y[4] = 0.0920285
  x[3] = 335.8; y[3] = 0.107158
  x[2] = 315.5; y[2] = 0.145294
  x[1] = 295.1; y[1] = 0.22014
  x[0] = 274.7; y[0] = 0.340019