Measurement of dijet angular distributions at s**(1/2) = 1.96-TeV and searches for quark compositeness and extra spatial dimensions
Phys.Rev.Lett. 103 (2009) 191803, 2009.
The D0 collaboration

Abstract (data abstract)
Fermilab-Tevatron. Measurement of the dijet angular distribution in PBAR P interactions at c.m. energy 1.96 TeV. The data, with a total integrated luminosity 0.7 fb-1, was collected during 2004-2005 and jets identified using a midpoint cone algorithm with jet cone radius = 0.7. The distributions in the jet variable chi (=exp(abs(rapidity(jet1)-rapidity(jet2)))) are measured where jet1 and jet2 are the jets with the highest PT.. The errors shown here are the statistical and uncorrelated systematic uncertainties. The total systematic uncertainties, including correlated errors, are between 1 to 5 percent for dijet mass & lt; 1 TeV and 3 to 11 percent for dijet mass & gt; 1 TeV.. Details of these correlated systematic errors are given in parts 2-11 of this data record.. Also listed are the non perturbative correction factor (to be multiplied to a perturbative calculation in comparisons to the data) defined as the product of hadronization and underlying event corrections. Note that these are the corrections to the CROSS SECTION, not to the normalized distribution.. Numerical values supplied by M. Wobisch. Fermilab-Tevatron. Measurement of the dijet angular distribution in PBAR P interactions at cm energy 1.96 TeV. This part (2) gives the up and down variations of uncertainty sources which are correlated between all data points for each source for the di-jet mass region 250 TO 300 GeV.Uncertainties are given for each CHI range within the dataset where CHI is EXP(ABS(YRAP(P-3)-YRAP(P=4))). The sources of uncertainty covered are:. 1 : JES uncertainty: EM energy scale. 2 : JES uncertainty: dead material. 3 : JES uncertainty: photon energy scale. 4 : JES uncertainty: photon sample purity. 5 : JES uncertainty: EM-jet background. 6 : JES uncertainty: high-pT extrapolation. 7 : JES uncertainty: PDF uncertaint at high pT. 8 : JES uncertainty: time stability. 9 : JES uncertainty: fit in CC (1). 10 : JES uncertainty: fit in CC (2). 11 : JES uncertainty: fit in CC (3). 12 : JES uncertainty: eta-intercalibration in CC. 13 : JES uncertainty: eta-intercalibration in IC (1). 14 : JES uncertainty: eta-intercalibration in IC (2). 15 : JES uncertainty: eta-intercalibration in EC (1). 16 : JES uncertainty: eta-intercalibration in EC (2). 17 : JES uncertainty: eta-intercalibration in EC (3). 18 : JES uncertainty: eta-intercalibration in EC (4). 19 : JES uncertainty: JES resolution bias. 20 : JES uncertainty: eta-fit in CC. 21 : JES uncertainty: eta-fit in IC (1). 22 : JES uncertainty: eta-fit in IC (2). 23 : JES uncertainty: eta-fit in EC (1). 24 : JES uncertainty: eta-fit in EC (2). 25 : JES uncertainty: eta-fit in EC (3). 26 : JES uncertainty: eta-fit in EC (4). 27 : JES uncertainty: Zero suppression bias (ZSb). 28 : JES uncertainty: ZSb number of vertices. 29 : JES uncertainty: Zsb jet matching. 30 : JES uncertainty: MPF method bias (MPFb). 31 : JES uncertainty: MPFb MC model dependence. 32 : JES uncertainty: MPFb scaling. 33 : JES uncertainty: MPF jet matching. 34 : JES uncertainty: Detector showering (Shw). 35 : JES uncertainty: Shw sample purity. 36 : JES uncertainty: Shw scaling. 38 : JES uncertainty: Shw template fits. 39 : JES uncertainty: Shw MC model dependence. 40 : JES uncertainty: Closure. 41 : JES uncertainty: MPFb for dijets (1). 42 : JES uncertainty: MPFb for dijets (2). 43 : JES uncertainty: Dijet CC response (1). 44 : JES uncertainty: Dijet CC response (2). 45 : JES uncertainty: Dijet CC response (3). 46 : JES uncertainty: Dijet CC response (4). 47 : JES uncertainty: Inclusive jet response. 48 : JES uncertainty: Offset systematics. 49 : pTres uncertainty: fit uncertainty. 50 : pTres uncertainty: soft correction. 51 : pTres uncertainty: particlel pT imbalance. 52 : pTres uncertainty: noise CC. 53 : pTres uncertainty: noise IC. 54 : pTres uncertainty: noise EC. 55 : pTres uncertainty: noise forward. 56 : pTres uncertainty: closure. 57 : pTres uncertainty: statistical CC1. 58 : pTres uncertainty: statistical CC2. 59 : pTres uncertainty: statistical IC1. 60 : pTres uncertainty: statistical IC2. 61 : pTres uncertainty: statistical EC1. 62 : pTres uncertainty: statistical EC2. 63 : pTres uncertainty: statistical forward. 64 : jet eta resolution uncertainty in 0.0 & lt; eta_det & lt;0.8. 65 : jet eta resolution uncertainty in 0.8 & lt; eta_det & lt;1.6. 66 : jet eta resolution uncertainty in 1.6 & lt; eta_det. 67 : jet phi resolution uncertainty. 68 : jet eta-bias uncertainty in 0.0 & lt; eta_det & lt;0.8. 69 : jet eta-bias uncertainty in 0.8 & lt; eta_det & lt;1.6. 70 : jet eta-bias uncertainty in 1.6 & lt; eta_det. 71 : uncertainty in shape of z-vertex distribution. 72 : uncertainty in rate of misidentification of the z-vertex. 73 : jet ID efficiency uncertainty in 0.0 & lt; eta_det & lt; 0.8. 74 : jet ID efficiency uncertainty in 0.8 & lt; eta_det & lt; 1.6. 75 : jet ID efficiency uncertainty in 1.6 & lt; eta_det. 76 : Monte Carlo reweighting uncertainty. Fermilab-Tevatron. Measurement of the dijet angular distribution in PBAR P interactions at cm energy 1.96 TeV. This part (3) gives the up and down variations of uncertainty sources which are correlated between all data points for each source for the di-jet mass region 300 TO 400 GeV.Uncertainties are given for each CHI range within the dataset where CHI is EXP(ABS(YRAP(P-3)-YRAP(P=4))). The sources of uncertainty covered are:. 1 : JES uncertainty: EM energy scale. 2 : JES uncertainty: dead material. 3 : JES uncertainty: photon energy scale. 4 : JES uncertainty: photon sample purity. 5 : JES uncertainty: EM-jet background. 6 : JES uncertainty: high-pT extrapolation. 7 : JES uncertainty: PDF uncertaint at high pT. 8 : JES uncertainty: time stability. 9 : JES uncertainty: fit in CC (1). 10 : JES uncertainty: fit in CC (2). 11 : JES uncertainty: fit in CC (3). 12 : JES uncertainty: eta-intercalibration in CC. 13 : JES uncertainty: eta-intercalibration in IC (1). 14 : JES uncertainty: eta-intercalibration in IC (2). 15 : JES uncertainty: eta-intercalibration in EC (1). 16 : JES uncertainty: eta-intercalibration in EC (2). 17 : JES uncertainty: eta-intercalibration in EC (3). 18 : JES uncertainty: eta-intercalibration in EC (4). 19 : JES uncertainty: JES resolution bias. 20 : JES uncertainty: eta-fit in CC. 21 : JES uncertainty: eta-fit in IC (1). 22 : JES uncertainty: eta-fit in IC (2). 23 : JES uncertainty: eta-fit in EC (1). 24 : JES uncertainty: eta-fit in EC (2). 25 : JES uncertainty: eta-fit in EC (3). 26 : JES uncertainty: eta-fit in EC (4). 27 : JES uncertainty: Zero suppression bias (ZSb). 28 : JES uncertainty: ZSb number of vertices. 29 : JES uncertainty: Zsb jet matching. 30 : JES uncertainty: MPF method bias (MPFb). 31 : JES uncertainty: MPFb MC model dependence. 32 : JES uncertainty: MPFb scaling. 33 : JES uncertainty: MPF jet matching. 34 : JES uncertainty: Detector showering (Shw). 35 : JES uncertainty: Shw sample purity. 36 : JES uncertainty: Shw scaling. 38 : JES uncertainty: Shw template fits. 39 : JES uncertainty: Shw MC model dependence. 40 : JES uncertainty: Closure. 41 : JES uncertainty: MPFb for dijets (1). 42 : JES uncertainty: MPFb for dijets (2). 43 : JES uncertainty: Dijet CC response (1). 44 : JES uncertainty: Dijet CC response (2). 45 : JES uncertainty: Dijet CC response (3). 46 : JES uncertainty: Dijet CC response (4). 47 : JES uncertainty: Inclusive jet response. 48 : JES uncertainty: Offset systematics. 49 : pTres uncertainty: fit uncertainty. 50 : pTres uncertainty: soft correction. 51 : pTres uncertainty: particlel pT imbalance. 52 : pTres uncertainty: noise CC. 53 : pTres uncertainty: noise IC. 54 : pTres uncertainty: noise EC. 55 : pTres uncertainty: noise forward. 56 : pTres uncertainty: closure. 57 : pTres uncertainty: statistical CC1. 58 : pTres uncertainty: statistical CC2. 59 : pTres uncertainty: statistical IC1. 60 : pTres uncertainty: statistical IC2. 61 : pTres uncertainty: statistical EC1. 62 : pTres uncertainty: statistical EC2. 63 : pTres uncertainty: statistical forward. 64 : jet eta resolution uncertainty in 0.0 & lt; eta_det & lt;0.8. 65 : jet eta resolution uncertainty in 0.8 & lt; eta_det & lt;1.6. 66 : jet eta resolution uncertainty in 1.6 & lt; eta_det. 67 : jet phi resolution uncertainty. 68 : jet eta-bias uncertainty in 0.0 & lt; eta_det & lt;0.8. 69 : jet eta-bias uncertainty in 0.8 & lt; eta_det & lt;1.6. 70 : jet eta-bias uncertainty in 1.6 & lt; eta_det. 71 : uncertainty in shape of z-vertex distribution. 72 : uncertainty in rate of misidentification of the z-vertex. 73 : jet ID efficiency uncertainty in 0.0 & lt; eta_det & lt; 0.8. 74 : jet ID efficiency uncertainty in 0.8 & lt; eta_det & lt; 1.6. 75 : jet ID efficiency uncertainty in 1.6 & lt; eta_det. 76 : Monte Carlo reweighting uncertainty. Fermilab-Tevatron. Measurement of the dijet angular distribution in PBAR P interactions at cm energy 1.96 TeV. This part (4) gives the up and down variations of uncertainty sources which are correlated between all data points for each source for the di-jet mass region 400 TO 500 GeV.Uncertainties are given for each CHI range within the dataset where CHI is EXP(ABS(YRAP(P-3)-YRAP(P=4))). The sources of uncertainty covered are:. 1 : JES uncertainty: EM energy scale. 2 : JES uncertainty: dead material. 3 : JES uncertainty: photon energy scale. 4 : JES uncertainty: photon sample purity. 5 : JES uncertainty: EM-jet background. 6 : JES uncertainty: high-pT extrapolation. 7 : JES uncertainty: PDF uncertaint at high pT. 8 : JES uncertainty: time stability. 9 : JES uncertainty: fit in CC (1). 10 : JES uncertainty: fit in CC (2). 11 : JES uncertainty: fit in CC (3). 12 : JES uncertainty: eta-intercalibration in CC. 13 : JES uncertainty: eta-intercalibration in IC (1). 14 : JES uncertainty: eta-intercalibration in IC (2). 15 : JES uncertainty: eta-intercalibration in EC (1). 16 : JES uncertainty: eta-intercalibration in EC (2). 17 : JES uncertainty: eta-intercalibration in EC (3). 18 : JES uncertainty: eta-intercalibration in EC (4). 19 : JES uncertainty: JES resolution bias. 20 : JES uncertainty: eta-fit in CC. 21 : JES uncertainty: eta-fit in IC (1). 22 : JES uncertainty: eta-fit in IC (2). 23 : JES uncertainty: eta-fit in EC (1). 24 : JES uncertainty: eta-fit in EC (2). 25 : JES uncertainty: eta-fit in EC (3). 26 : JES uncertainty: eta-fit in EC (4). 27 : JES uncertainty: Zero suppression bias (ZSb). 28 : JES uncertainty: ZSb number of vertices. 29 : JES uncertainty: Zsb jet matching. 30 : JES uncertainty: MPF method bias (MPFb). 31 : JES uncertainty: MPFb MC model dependence. 32 : JES uncertainty: MPFb scaling. 33 : JES uncertainty: MPF jet matching. 34 : JES uncertainty: Detector showering (Shw). 35 : JES uncertainty: Shw sample purity. 36 : JES uncertainty: Shw scaling. 38 : JES uncertainty: Shw template fits. 39 : JES uncertainty: Shw MC model dependence. 40 : JES uncertainty: Closure. 41 : JES uncertainty: MPFb for dijets (1). 42 : JES uncertainty: MPFb for dijets (2). 43 : JES uncertainty: Dijet CC response (1). 44 : JES uncertainty: Dijet CC response (2). 45 : JES uncertainty: Dijet CC response (3). 46 : JES uncertainty: Dijet CC response (4). 47 : JES uncertainty: Inclusive jet response. 48 : JES uncertainty: Offset systematics. 49 : pTres uncertainty: fit uncertainty. 50 : pTres uncertainty: soft correction. 51 : pTres uncertainty: particlel pT imbalance. 52 : pTres uncertainty: noise CC. 53 : pTres uncertainty: noise IC. 54 : pTres uncertainty: noise EC. 55 : pTres uncertainty: noise forward. 56 : pTres uncertainty: closure. 57 : pTres uncertainty: statistical CC1. 58 : pTres uncertainty: statistical CC2. 59 : pTres uncertainty: statistical IC1. 60 : pTres uncertainty: statistical IC2. 61 : pTres uncertainty: statistical EC1. 62 : pTres uncertainty: statistical EC2. 63 : pTres uncertainty: statistical forward. 64 : jet eta resolution uncertainty in 0.0 & lt; eta_det & lt;0.8. 65 : jet eta resolution uncertainty in 0.8 & lt; eta_det & lt;1.6. 66 : jet eta resolution uncertainty in 1.6 & lt; eta_det. 67 : jet phi resolution uncertainty. 68 : jet eta-bias uncertainty in 0.0 & lt; eta_det & lt;0.8. 69 : jet eta-bias uncertainty in 0.8 & lt; eta_det & lt;1.6. 70 : jet eta-bias uncertainty in 1.6 & lt; eta_det. 71 : uncertainty in shape of z-vertex distribution. 72 : uncertainty in rate of misidentification of the z-vertex. 73 : jet ID efficiency uncertainty in 0.0 & lt; eta_det & lt; 0.8. 74 : jet ID efficiency uncertainty in 0.8 & lt; eta_det & lt; 1.6. 75 : jet ID efficiency uncertainty in 1.6 & lt; eta_det. 76 : Monte Carlo reweighting uncertainty. Fermilab-Tevatron. Measurement of the dijet angular distribution in PBAR P interactions at cm energy 1.96 TeV. This part (5) gives the up and down variations of uncertainty sources which are correlated between all data points for each source for the di-jet mass region 500 TO 600 GeV.Uncertainties are given for each CHI range within the dataset where CHI is EXP(ABS(YRAP(P-3)-YRAP(P=4))). The sources of uncertainty covered are:. 1 : JES uncertainty: EM energy scale. 2 : JES uncertainty: dead material. 3 : JES uncertainty: photon energy scale. 4 : JES uncertainty: photon sample purity. 5 : JES uncertainty: EM-jet background. 6 : JES uncertainty: high-pT extrapolation. 7 : JES uncertainty: PDF uncertaint at high pT. 8 : JES uncertainty: time stability. 9 : JES uncertainty: fit in CC (1). 10 : JES uncertainty: fit in CC (2). 11 : JES uncertainty: fit in CC (3). 12 : JES uncertainty: eta-intercalibration in CC. 13 : JES uncertainty: eta-intercalibration in IC (1). 14 : JES uncertainty: eta-intercalibration in IC (2). 15 : JES uncertainty: eta-intercalibration in EC (1). 16 : JES uncertainty: eta-intercalibration in EC (2). 17 : JES uncertainty: eta-intercalibration in EC (3). 18 : JES uncertainty: eta-intercalibration in EC (4). 19 : JES uncertainty: JES resolution bias. 20 : JES uncertainty: eta-fit in CC. 21 : JES uncertainty: eta-fit in IC (1). 22 : JES uncertainty: eta-fit in IC (2). 23 : JES uncertainty: eta-fit in EC (1). 24 : JES uncertainty: eta-fit in EC (2). 25 : JES uncertainty: eta-fit in EC (3). 26 : JES uncertainty: eta-fit in EC (4). 27 : JES uncertainty: Zero suppression bias (ZSb). 28 : JES uncertainty: ZSb number of vertices. 29 : JES uncertainty: Zsb jet matching. 30 : JES uncertainty: MPF method bias (MPFb). 31 : JES uncertainty: MPFb MC model dependence. 32 : JES uncertainty: MPFb scaling. 33 : JES uncertainty: MPF jet matching. 34 : JES uncertainty: Detector showering (Shw). 35 : JES uncertainty: Shw sample purity. 36 : JES uncertainty: Shw scaling. 38 : JES uncertainty: Shw template fits. 39 : JES uncertainty: Shw MC model dependence. 40 : JES uncertainty: Closure. 41 : JES uncertainty: MPFb for dijets (1). 42 : JES uncertainty: MPFb for dijets (2). 43 : JES uncertainty: Dijet CC response (1). 44 : JES uncertainty: Dijet CC response (2). 45 : JES uncertainty: Dijet CC response (3). 46 : JES uncertainty: Dijet CC response (4). 47 : JES uncertainty: Inclusive jet response. 48 : JES uncertainty: Offset systematics. 49 : pTres uncertainty: fit uncertainty. 50 : pTres uncertainty: soft correction. 51 : pTres uncertainty: particlel pT imbalance. 52 : pTres uncertainty: noise CC. 53 : pTres uncertainty: noise IC. 54 : pTres uncertainty: noise EC. 55 : pTres uncertainty: noise forward. 56 : pTres uncertainty: closure. 57 : pTres uncertainty: statistical CC1. 58 : pTres uncertainty: statistical CC2. 59 : pTres uncertainty: statistical IC1. 60 : pTres uncertainty: statistical IC2. 61 : pTres uncertainty: statistical EC1. 62 : pTres uncertainty: statistical EC2. 63 : pTres uncertainty: statistical forward. 64 : jet eta resolution uncertainty in 0.0 & lt; eta_det & lt;0.8. 65 : jet eta resolution uncertainty in 0.8 & lt; eta_det & lt;1.6. 66 : jet eta resolution uncertainty in 1.6 & lt; eta_det. 67 : jet phi resolution uncertainty. 68 : jet eta-bias uncertainty in 0.0 & lt; eta_det & lt;0.8. 69 : jet eta-bias uncertainty in 0.8 & lt; eta_det & lt;1.6. 70 : jet eta-bias uncertainty in 1.6 & lt; eta_det. 71 : uncertainty in shape of z-vertex distribution. 72 : uncertainty in rate of misidentification of the z-vertex. 73 : jet ID efficiency uncertainty in 0.0 & lt; eta_det & lt; 0.8. 74 : jet ID efficiency uncertainty in 0.8 & lt; eta_det & lt; 1.6. 75 : jet ID efficiency uncertainty in 1.6 & lt; eta_det. 76 : Monte Carlo reweighting uncertainty. Fermilab-Tevatron. Measurement of the dijet angular distribution in PBAR P interactions at cm energy 1.96 TeV. This part (6) gives the up and down variations of uncertainty sources which are correlated between all data points for each source for the di-jet mass region 600 TO 700 GeV.Uncertainties are given for each CHI range within the dataset where CHI is EXP(ABS(YRAP(P-3)-YRAP(P=4))). The sources of uncertainty covered are:. 1 : JES uncertainty: EM energy scale. 2 : JES uncertainty: dead material. 3 : JES uncertainty: photon energy scale. 4 : JES uncertainty: photon sample purity. 5 : JES uncertainty: EM-jet background. 6 : JES uncertainty: high-pT extrapolation. 7 : JES uncertainty: PDF uncertaint at high pT. 8 : JES uncertainty: time stability. 9 : JES uncertainty: fit in CC (1). 10 : JES uncertainty: fit in CC (2). 11 : JES uncertainty: fit in CC (3). 12 : JES uncertainty: eta-intercalibration in CC. 13 : JES uncertainty: eta-intercalibration in IC (1). 14 : JES uncertainty: eta-intercalibration in IC (2). 15 : JES uncertainty: eta-intercalibration in EC (1). 16 : JES uncertainty: eta-intercalibration in EC (2). 17 : JES uncertainty: eta-intercalibration in EC (3). 18 : JES uncertainty: eta-intercalibration in EC (4). 19 : JES uncertainty: JES resolution bias. 20 : JES uncertainty: eta-fit in CC. 21 : JES uncertainty: eta-fit in IC (1). 22 : JES uncertainty: eta-fit in IC (2). 23 : JES uncertainty: eta-fit in EC (1). 24 : JES uncertainty: eta-fit in EC (2). 25 : JES uncertainty: eta-fit in EC (3). 26 : JES uncertainty: eta-fit in EC (4). 27 : JES uncertainty: Zero suppression bias (ZSb). 28 : JES uncertainty: ZSb number of vertices. 29 : JES uncertainty: Zsb jet matching. 30 : JES uncertainty: MPF method bias (MPFb). 31 : JES uncertainty: MPFb MC model dependence. 32 : JES uncertainty: MPFb scaling. 33 : JES uncertainty: MPF jet matching. 34 : JES uncertainty: Detector showering (Shw). 35 : JES uncertainty: Shw sample purity. 36 : JES uncertainty: Shw scaling. 38 : JES uncertainty: Shw template fits. 39 : JES uncertainty: Shw MC model dependence. 40 : JES uncertainty: Closure. 41 : JES uncertainty: MPFb for dijets (1). 42 : JES uncertainty: MPFb for dijets (2). 43 : JES uncertainty: Dijet CC response (1). 44 : JES uncertainty: Dijet CC response (2). 45 : JES uncertainty: Dijet CC response (3). 46 : JES uncertainty: Dijet CC response (4). 47 : JES uncertainty: Inclusive jet response. 48 : JES uncertainty: Offset systematics. 49 : pTres uncertainty: fit uncertainty. 50 : pTres uncertainty: soft correction. 51 : pTres uncertainty: particlel pT imbalance. 52 : pTres uncertainty: noise CC. 53 : pTres uncertainty: noise IC. 54 : pTres uncertainty: noise EC. 55 : pTres uncertainty: noise forward. 56 : pTres uncertainty: closure. 57 : pTres uncertainty: statistical CC1. 58 : pTres uncertainty: statistical CC2. 59 : pTres uncertainty: statistical IC1. 60 : pTres uncertainty: statistical IC2. 61 : pTres uncertainty: statistical EC1. 62 : pTres uncertainty: statistical EC2. 63 : pTres uncertainty: statistical forward. 64 : jet eta resolution uncertainty in 0.0 & lt; eta_det & lt;0.8. 65 : jet eta resolution uncertainty in 0.8 & lt; eta_det & lt;1.6. 66 : jet eta resolution uncertainty in 1.6 & lt; eta_det. 67 : jet phi resolution uncertainty. 68 : jet eta-bias uncertainty in 0.0 & lt; eta_det & lt;0.8. 69 : jet eta-bias uncertainty in 0.8 & lt; eta_det & lt;1.6. 70 : jet eta-bias uncertainty in 1.6 & lt; eta_det. 71 : uncertainty in shape of z-vertex distribution. 72 : uncertainty in rate of misidentification of the z-vertex. 73 : jet ID efficiency uncertainty in 0.0 & lt; eta_det & lt; 0.8. 74 : jet ID efficiency uncertainty in 0.8 & lt; eta_det & lt; 1.6. 75 : jet ID efficiency uncertainty in 1.6 & lt; eta_det. 76 : Monte Carlo reweighting uncertainty. Fermilab-Tevatron. Measurement of the dijet angular distribution in PBAR P interactions at cm energy 1.96 TeV. This part (7) gives the up and down variations of uncertainty sources which are correlated between all data points for each source for the di-jet mass region 700 TO 800 GeV.Uncertainties are given for each CHI range within the dataset where CHI is EXP(ABS(YRAP(P-3)-YRAP(P=4))). The sources of uncertainty covered are:. 1 : JES uncertainty: EM energy scale. 2 : JES uncertainty: dead material. 3 : JES uncertainty: photon energy scale. 4 : JES uncertainty: photon sample purity. 5 : JES uncertainty: EM-jet background. 6 : JES uncertainty: high-pT extrapolation. 7 : JES uncertainty: PDF uncertaint at high pT. 8 : JES uncertainty: time stability. 9 : JES uncertainty: fit in CC (1). 10 : JES uncertainty: fit in CC (2). 11 : JES uncertainty: fit in CC (3). 12 : JES uncertainty: eta-intercalibration in CC. 13 : JES uncertainty: eta-intercalibration in IC (1). 14 : JES uncertainty: eta-intercalibration in IC (2). 15 : JES uncertainty: eta-intercalibration in EC (1). 16 : JES uncertainty: eta-intercalibration in EC (2). 17 : JES uncertainty: eta-intercalibration in EC (3). 18 : JES uncertainty: eta-intercalibration in EC (4). 19 : JES uncertainty: JES resolution bias. 20 : JES uncertainty: eta-fit in CC. 21 : JES uncertainty: eta-fit in IC (1). 22 : JES uncertainty: eta-fit in IC (2). 23 : JES uncertainty: eta-fit in EC (1). 24 : JES uncertainty: eta-fit in EC (2). 25 : JES uncertainty: eta-fit in EC (3). 26 : JES uncertainty: eta-fit in EC (4). 27 : JES uncertainty: Zero suppression bias (ZSb). 28 : JES uncertainty: ZSb number of vertices. 29 : JES uncertainty: Zsb jet matching. 30 : JES uncertainty: MPF method bias (MPFb). 31 : JES uncertainty: MPFb MC model dependence. 32 : JES uncertainty: MPFb scaling. 33 : JES uncertainty: MPF jet matching. 34 : JES uncertainty: Detector showering (Shw). 35 : JES uncertainty: Shw sample purity. 36 : JES uncertainty: Shw scaling. 38 : JES uncertainty: Shw template fits. 39 : JES uncertainty: Shw MC model dependence. 40 : JES uncertainty: Closure. 41 : JES uncertainty: MPFb for dijets (1). 42 : JES uncertainty: MPFb for dijets (2). 43 : JES uncertainty: Dijet CC response (1). 44 : JES uncertainty: Dijet CC response (2). 45 : JES uncertainty: Dijet CC response (3). 46 : JES uncertainty: Dijet CC response (4). 47 : JES uncertainty: Inclusive jet response. 48 : JES uncertainty: Offset systematics. 49 : pTres uncertainty: fit uncertainty. 50 : pTres uncertainty: soft correction. 51 : pTres uncertainty: particlel pT imbalance. 52 : pTres uncertainty: noise CC. 53 : pTres uncertainty: noise IC. 54 : pTres uncertainty: noise EC. 55 : pTres uncertainty: noise forward. 56 : pTres uncertainty: closure. 57 : pTres uncertainty: statistical CC1. 58 : pTres uncertainty: statistical CC2. 59 : pTres uncertainty: statistical IC1. 60 : pTres uncertainty: statistical IC2. 61 : pTres uncertainty: statistical EC1. 62 : pTres uncertainty: statistical EC2. 63 : pTres uncertainty: statistical forward. 64 : jet eta resolution uncertainty in 0.0 & lt; eta_det & lt;0.8. 65 : jet eta resolution uncertainty in 0.8 & lt; eta_det & lt;1.6. 66 : jet eta resolution uncertainty in 1.6 & lt; eta_det. 67 : jet phi resolution uncertainty. 68 : jet eta-bias uncertainty in 0.0 & lt; eta_det & lt;0.8. 69 : jet eta-bias uncertainty in 0.8 & lt; eta_det & lt;1.6. 70 : jet eta-bias uncertainty in 1.6 & lt; eta_det. 71 : uncertainty in shape of z-vertex distribution. 72 : uncertainty in rate of misidentification of the z-vertex. 73 : jet ID efficiency uncertainty in 0.0 & lt; eta_det & lt; 0.8. 74 : jet ID efficiency uncertainty in 0.8 & lt; eta_det & lt; 1.6. 75 : jet ID efficiency uncertainty in 1.6 & lt; eta_det. 76 : Monte Carlo reweighting uncertainty. Fermilab-Tevatron. Measurement of the dijet angular distribution in PBAR P interactions at cm energy 1.96 TeV. This part (8) gives the up and down variations of uncertainty sources which are correlated between all data points for each source for the di-jet mass region 800 TO 900 GeV.Uncertainties are given for each CHI range within the dataset where CHI is EXP(ABS(YRAP(P-3)-YRAP(P=4))). The sources of uncertainty covered are:. 1 : JES uncertainty: EM energy scale. 2 : JES uncertainty: dead material. 3 : JES uncertainty: photon energy scale. 4 : JES uncertainty: photon sample purity. 5 : JES uncertainty: EM-jet background. 6 : JES uncertainty: high-pT extrapolation. 7 : JES uncertainty: PDF uncertaint at high pT. 8 : JES uncertainty: time stability. 9 : JES uncertainty: fit in CC (1). 10 : JES uncertainty: fit in CC (2). 11 : JES uncertainty: fit in CC (3). 12 : JES uncertainty: eta-intercalibration in CC. 13 : JES uncertainty: eta-intercalibration in IC (1). 14 : JES uncertainty: eta-intercalibration in IC (2). 15 : JES uncertainty: eta-intercalibration in EC (1). 16 : JES uncertainty: eta-intercalibration in EC (2). 17 : JES uncertainty: eta-intercalibration in EC (3). 18 : JES uncertainty: eta-intercalibration in EC (4). 19 : JES uncertainty: JES resolution bias. 20 : JES uncertainty: eta-fit in CC. 21 : JES uncertainty: eta-fit in IC (1). 22 : JES uncertainty: eta-fit in IC (2). 23 : JES uncertainty: eta-fit in EC (1). 24 : JES uncertainty: eta-fit in EC (2). 25 : JES uncertainty: eta-fit in EC (3). 26 : JES uncertainty: eta-fit in EC (4). 27 : JES uncertainty: Zero suppression bias (ZSb). 28 : JES uncertainty: ZSb number of vertices. 29 : JES uncertainty: Zsb jet matching. 30 : JES uncertainty: MPF method bias (MPFb). 31 : JES uncertainty: MPFb MC model dependence. 32 : JES uncertainty: MPFb scaling. 33 : JES uncertainty: MPF jet matching. 34 : JES uncertainty: Detector showering (Shw). 35 : JES uncertainty: Shw sample purity. 36 : JES uncertainty: Shw scaling. 38 : JES uncertainty: Shw template fits. 39 : JES uncertainty: Shw MC model dependence. 40 : JES uncertainty: Closure. 41 : JES uncertainty: MPFb for dijets (1). 42 : JES uncertainty: MPFb for dijets (2). 43 : JES uncertainty: Dijet CC response (1). 44 : JES uncertainty: Dijet CC response (2). 45 : JES uncertainty: Dijet CC response (3). 46 : JES uncertainty: Dijet CC response (4). 47 : JES uncertainty: Inclusive jet response. 48 : JES uncertainty: Offset systematics. 49 : pTres uncertainty: fit uncertainty. 50 : pTres uncertainty: soft correction. 51 : pTres uncertainty: particlel pT imbalance. 52 : pTres uncertainty: noise CC. 53 : pTres uncertainty: noise IC. 54 : pTres uncertainty: noise EC. 55 : pTres uncertainty: noise forward. 56 : pTres uncertainty: closure. 57 : pTres uncertainty: statistical CC1. 58 : pTres uncertainty: statistical CC2. 59 : pTres uncertainty: statistical IC1. 60 : pTres uncertainty: statistical IC2. 61 : pTres uncertainty: statistical EC1. 62 : pTres uncertainty: statistical EC2. 63 : pTres uncertainty: statistical forward. 64 : jet eta resolution uncertainty in 0.0 & lt; eta_det & lt;0.8. 65 : jet eta resolution uncertainty in 0.8 & lt; eta_det & lt;1.6. 66 : jet eta resolution uncertainty in 1.6 & lt; eta_det. 67 : jet phi resolution uncertainty. 68 : jet eta-bias uncertainty in 0.0 & lt; eta_det & lt;0.8. 69 : jet eta-bias uncertainty in 0.8 & lt; eta_det & lt;1.6. 70 : jet eta-bias uncertainty in 1.6 & lt; eta_det. 71 : uncertainty in shape of z-vertex distribution. 72 : uncertainty in rate of misidentification of the z-vertex. 73 : jet ID efficiency uncertainty in 0.0 & lt; eta_det & lt; 0.8. 74 : jet ID efficiency uncertainty in 0.8 & lt; eta_det & lt; 1.6. 75 : jet ID efficiency uncertainty in 1.6 & lt; eta_det. 76 : Monte Carlo reweighting uncertainty. Fermilab-Tevatron. Measurement of the dijet angular distribution in PBAR P interactions at cm energy 1.96 TeV. This part (9) gives the up and down variations of uncertainty sources which are correlated between all data points for each source for the di-jet mass region 900 TO 1000 GeV.Uncertainties are given for each CHI range within the dataset where CHI is EXP(ABS(YRAP(P-3)-YRAP(P=4))). The sources of uncertainty covered are:. 1 : JES uncertainty: EM energy scale. 2 : JES uncertainty: dead material. 3 : JES uncertainty: photon energy scale. 4 : JES uncertainty: photon sample purity. 5 : JES uncertainty: EM-jet background. 6 : JES uncertainty: high-pT extrapolation. 7 : JES uncertainty: PDF uncertaint at high pT. 8 : JES uncertainty: time stability. 9 : JES uncertainty: fit in CC (1). 10 : JES uncertainty: fit in CC (2). 11 : JES uncertainty: fit in CC (3). 12 : JES uncertainty: eta-intercalibration in CC. 13 : JES uncertainty: eta-intercalibration in IC (1). 14 : JES uncertainty: eta-intercalibration in IC (2). 15 : JES uncertainty: eta-intercalibration in EC (1). 16 : JES uncertainty: eta-intercalibration in EC (2). 17 : JES uncertainty: eta-intercalibration in EC (3). 18 : JES uncertainty: eta-intercalibration in EC (4). 19 : JES uncertainty: JES resolution bias. 20 : JES uncertainty: eta-fit in CC. 21 : JES uncertainty: eta-fit in IC (1). 22 : JES uncertainty: eta-fit in IC (2). 23 : JES uncertainty: eta-fit in EC (1). 24 : JES uncertainty: eta-fit in EC (2). 25 : JES uncertainty: eta-fit in EC (3). 26 : JES uncertainty: eta-fit in EC (4). 27 : JES uncertainty: Zero suppression bias (ZSb). 28 : JES uncertainty: ZSb number of vertices. 29 : JES uncertainty: Zsb jet matching. 30 : JES uncertainty: MPF method bias (MPFb). 31 : JES uncertainty: MPFb MC model dependence. 32 : JES uncertainty: MPFb scaling. 33 : JES uncertainty: MPF jet matching. 34 : JES uncertainty: Detector showering (Shw). 35 : JES uncertainty: Shw sample purity. 36 : JES uncertainty: Shw scaling. 38 : JES uncertainty: Shw template fits. 39 : JES uncertainty: Shw MC model dependence. 40 : JES uncertainty: Closure. 41 : JES uncertainty: MPFb for dijets (1). 42 : JES uncertainty: MPFb for dijets (2). 43 : JES uncertainty: Dijet CC response (1). 44 : JES uncertainty: Dijet CC response (2). 45 : JES uncertainty: Dijet CC response (3). 46 : JES uncertainty: Dijet CC response (4). 47 : JES uncertainty: Inclusive jet response. 48 : JES uncertainty: Offset systematics. 49 : pTres uncertainty: fit uncertainty. 50 : pTres uncertainty: soft correction. 51 : pTres uncertainty: particlel pT imbalance. 52 : pTres uncertainty: noise CC. 53 : pTres uncertainty: noise IC. 54 : pTres uncertainty: noise EC. 55 : pTres uncertainty: noise forward. 56 : pTres uncertainty: closure. 57 : pTres uncertainty: statistical CC1. 58 : pTres uncertainty: statistical CC2. 59 : pTres uncertainty: statistical IC1. 60 : pTres uncertainty: statistical IC2. 61 : pTres uncertainty: statistical EC1. 62 : pTres uncertainty: statistical EC2. 63 : pTres uncertainty: statistical forward. 64 : jet eta resolution uncertainty in 0.0 & lt; eta_det & lt;0.8. 65 : jet eta resolution uncertainty in 0.8 & lt; eta_det & lt;1.6. 66 : jet eta resolution uncertainty in 1.6 & lt; eta_det. 67 : jet phi resolution uncertainty. 68 : jet eta-bias uncertainty in 0.0 & lt; eta_det & lt;0.8. 69 : jet eta-bias uncertainty in 0.8 & lt; eta_det & lt;1.6. 70 : jet eta-bias uncertainty in 1.6 & lt; eta_det. 71 : uncertainty in shape of z-vertex distribution. 72 : uncertainty in rate of misidentification of the z-vertex. 73 : jet ID efficiency uncertainty in 0.0 & lt; eta_det & lt; 0.8. 74 : jet ID efficiency uncertainty in 0.8 & lt; eta_det & lt; 1.6. 75 : jet ID efficiency uncertainty in 1.6 & lt; eta_det. 76 : Monte Carlo reweighting uncertainty. Fermilab-Tevatron. Measurement of the dijet angular distribution in PBAR P interactions at cm energy 1.96 TeV. This part (10) gives the up and down variations of uncertainty sources which are correlated between all data points for each source for the di-jet mass region 1000 TO 1100 GeV.Uncertainties are given for each CHI range within the dataset where CHI is EXP(ABS(YRAP(P-3)-YRAP(P=4))). The sources of uncertainty covered are:. 1 : JES uncertainty: EM energy scale. 2 : JES uncertainty: dead material. 3 : JES uncertainty: photon energy scale. 4 : JES uncertainty: photon sample purity. 5 : JES uncertainty: EM-jet background. 6 : JES uncertainty: high-pT extrapolation. 7 : JES uncertainty: PDF uncertaint at high pT. 8 : JES uncertainty: time stability. 9 : JES uncertainty: fit in CC (1). 10 : JES uncertainty: fit in CC (2). 11 : JES uncertainty: fit in CC (3). 12 : JES uncertainty: eta-intercalibration in CC. 13 : JES uncertainty: eta-intercalibration in IC (1). 14 : JES uncertainty: eta-intercalibration in IC (2). 15 : JES uncertainty: eta-intercalibration in EC (1). 16 : JES uncertainty: eta-intercalibration in EC (2). 17 : JES uncertainty: eta-intercalibration in EC (3). 18 : JES uncertainty: eta-intercalibration in EC (4). 19 : JES uncertainty: JES resolution bias. 20 : JES uncertainty: eta-fit in CC. 21 : JES uncertainty: eta-fit in IC (1). 22 : JES uncertainty: eta-fit in IC (2). 23 : JES uncertainty: eta-fit in EC (1). 24 : JES uncertainty: eta-fit in EC (2). 25 : JES uncertainty: eta-fit in EC (3). 26 : JES uncertainty: eta-fit in EC (4). 27 : JES uncertainty: Zero suppression bias (ZSb). 28 : JES uncertainty: ZSb number of vertices. 29 : JES uncertainty: Zsb jet matching. 30 : JES uncertainty: MPF method bias (MPFb). 31 : JES uncertainty: MPFb MC model dependence. 32 : JES uncertainty: MPFb scaling. 33 : JES uncertainty: MPF jet matching. 34 : JES uncertainty: Detector showering (Shw). 35 : JES uncertainty: Shw sample purity. 36 : JES uncertainty: Shw scaling. 38 : JES uncertainty: Shw template fits. 39 : JES uncertainty: Shw MC model dependence. 40 : JES uncertainty: Closure. 41 : JES uncertainty: MPFb for dijets (1). 42 : JES uncertainty: MPFb for dijets (2). 43 : JES uncertainty: Dijet CC response (1). 44 : JES uncertainty: Dijet CC response (2). 45 : JES uncertainty: Dijet CC response (3). 46 : JES uncertainty: Dijet CC response (4). 47 : JES uncertainty: Inclusive jet response. 48 : JES uncertainty: Offset systematics. 49 : pTres uncertainty: fit uncertainty. 50 : pTres uncertainty: soft correction. 51 : pTres uncertainty: particlel pT imbalance. 52 : pTres uncertainty: noise CC. 53 : pTres uncertainty: noise IC. 54 : pTres uncertainty: noise EC. 55 : pTres uncertainty: noise forward. 56 : pTres uncertainty: closure. 57 : pTres uncertainty: statistical CC1. 58 : pTres uncertainty: statistical CC2. 59 : pTres uncertainty: statistical IC1. 60 : pTres uncertainty: statistical IC2. 61 : pTres uncertainty: statistical EC1. 62 : pTres uncertainty: statistical EC2. 63 : pTres uncertainty: statistical forward. 64 : jet eta resolution uncertainty in 0.0 & lt; eta_det & lt;0.8. 65 : jet eta resolution uncertainty in 0.8 & lt; eta_det & lt;1.6. 66 : jet eta resolution uncertainty in 1.6 & lt; eta_det. 67 : jet phi resolution uncertainty. 68 : jet eta-bias uncertainty in 0.0 & lt; eta_det & lt;0.8. 69 : jet eta-bias uncertainty in 0.8 & lt; eta_det & lt;1.6. 70 : jet eta-bias uncertainty in 1.6 & lt; eta_det. 71 : uncertainty in shape of z-vertex distribution. 72 : uncertainty in rate of misidentification of the z-vertex. 73 : jet ID efficiency uncertainty in 0.0 & lt; eta_det & lt; 0.8. 74 : jet ID efficiency uncertainty in 0.8 & lt; eta_det & lt; 1.6. 75 : jet ID efficiency uncertainty in 1.6 & lt; eta_det. 76 : Monte Carlo reweighting uncertainty. Fermilab-Tevatron. Measurement of the dijet angular distribution in PBAR P interactions at cm energy 1.96 TeV. This part (11) gives the up and down variations of uncertainty sources which are correlated between all data points for each source for the di-jet mass region & gt; 1100 GeV.Uncertainties are given for each CHI range within the dataset where CHI is EXP(ABS(YRAP(P-3)-YRAP(P=4))). The sources of uncertainty covered are:. 1 : JES uncertainty: EM energy scale. 2 : JES uncertainty: dead material. 3 : JES uncertainty: photon energy scale. 4 : JES uncertainty: photon sample purity. 5 : JES uncertainty: EM-jet background. 6 : JES uncertainty: high-pT extrapolation. 7 : JES uncertainty: PDF uncertaint at high pT. 8 : JES uncertainty: time stability. 9 : JES uncertainty: fit in CC (1). 10 : JES uncertainty: fit in CC (2). 11 : JES uncertainty: fit in CC (3). 12 : JES uncertainty: eta-intercalibration in CC. 13 : JES uncertainty: eta-intercalibration in IC (1). 14 : JES uncertainty: eta-intercalibration in IC (2). 15 : JES uncertainty: eta-intercalibration in EC (1). 16 : JES uncertainty: eta-intercalibration in EC (2). 17 : JES uncertainty: eta-intercalibration in EC (3). 18 : JES uncertainty: eta-intercalibration in EC (4). 19 : JES uncertainty: JES resolution bias. 20 : JES uncertainty: eta-fit in CC. 21 : JES uncertainty: eta-fit in IC (1). 22 : JES uncertainty: eta-fit in IC (2). 23 : JES uncertainty: eta-fit in EC (1). 24 : JES uncertainty: eta-fit in EC (2). 25 : JES uncertainty: eta-fit in EC (3). 26 : JES uncertainty: eta-fit in EC (4). 27 : JES uncertainty: Zero suppression bias (ZSb). 28 : JES uncertainty: ZSb number of vertices. 29 : JES uncertainty: Zsb jet matching. 30 : JES uncertainty: MPF method bias (MPFb). 31 : JES uncertainty: MPFb MC model dependence. 32 : JES uncertainty: MPFb scaling. 33 : JES uncertainty: MPF jet matching. 34 : JES uncertainty: Detector showering (Shw). 35 : JES uncertainty: Shw sample purity. 36 : JES uncertainty: Shw scaling. 38 : JES uncertainty: Shw template fits. 39 : JES uncertainty: Shw MC model dependence. 40 : JES uncertainty: Closure. 41 : JES uncertainty: MPFb for dijets (1). 42 : JES uncertainty: MPFb for dijets (2). 43 : JES uncertainty: Dijet CC response (1). 44 : JES uncertainty: Dijet CC response (2). 45 : JES uncertainty: Dijet CC response (3). 46 : JES uncertainty: Dijet CC response (4). 47 : JES uncertainty: Inclusive jet response. 48 : JES uncertainty: Offset systematics. 49 : pTres uncertainty: fit uncertainty. 50 : pTres uncertainty: soft correction. 51 : pTres uncertainty: particlel pT imbalance. 52 : pTres uncertainty: noise CC. 53 : pTres uncertainty: noise IC. 54 : pTres uncertainty: noise EC. 55 : pTres uncertainty: noise forward. 56 : pTres uncertainty: closure. 57 : pTres uncertainty: statistical CC1. 58 : pTres uncertainty: statistical CC2. 59 : pTres uncertainty: statistical IC1. 60 : pTres uncertainty: statistical IC2. 61 : pTres uncertainty: statistical EC1. 62 : pTres uncertainty: statistical EC2. 63 : pTres uncertainty: statistical forward. 64 : jet eta resolution uncertainty in 0.0 & lt; eta_det & lt;0.8. 65 : jet eta resolution uncertainty in 0.8 & lt; eta_det & lt;1.6. 66 : jet eta resolution uncertainty in 1.6 & lt; eta_det. 67 : jet phi resolution uncertainty. 68 : jet eta-bias uncertainty in 0.0 & lt; eta_det & lt;0.8. 69 : jet eta-bias uncertainty in 0.8 & lt; eta_det & lt;1.6. 70 : jet eta-bias uncertainty in 1.6 & lt; eta_det. 71 : uncertainty in shape of z-vertex distribution. 72 : uncertainty in rate of misidentification of the z-vertex. 73 : jet ID efficiency uncertainty in 0.0 & lt; eta_det & lt; 0.8. 74 : jet ID efficiency uncertainty in 0.8 & lt; eta_det & lt; 1.6. 75 : jet ID efficiency uncertainty in 1.6 & lt; eta_det. 76 : Monte Carlo reweighting uncertainty.

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