Document Guide for Blessed Plots ================================ This guide gives a description of all the blessed plots for the top analysis. Only plots from RUN1B (or RUN1A+1B) are included. Blessed plots from the Run 1A analysis can be found in the subdirectory [.TOP94]. Plot prefixes: DIL ........... related to the dilepton counting experiment SVX ........... related to the SVX b-tag counting experiment SLT ........... related to the SLT b-tag counting experiment MAS ........... related to the mass analysis KIN ........... related to a kinematic analysis HAD ........... related to the all hadronic mode GEN ........... general (doesn't relate strictly to any of the above) (Format) ============================================================================ File: 'ext'_xxxxxx.PS (xxxxx.TEX) Description: Cross Reference: CDF Note XXXX (For the WWW, must be lower case) Plot ============================================================================= ============================================================================ File: SVX_NJET_METH2_CTAU.PS (Figure 1 in PRL) SVX_NJET_METH2_CTAU_COLOR.PS Description: Njet plot for the SVX tags with a ctau (lifetime) inset for the tagged events in the three jet bin. Cross Reference: CDF Note 2993 (for the numbers into the plot) (For the WWW, must be lower case) Plot Plot_Color ============================================================================= ============================================================================ File: SVX_NJET_METH2_NOCTAU.PS Description: Njet plot for the SVX tags. Same as Figure 2 in PRL except with the Ctau removed. Cross Reference: CDF Note 2993 (for the numbers into the plot) (For the WWW, must be lower case) Plot ============================================================================= ============================================================================ File: SVX_PRIME_RESIDUALS.PS;1 Description: SVX' sigma=8.5 microns, tracking hit residuals. Plot shown at top presentations 3/2/95 by Bill Carithers. Cross Reference: CDF Note 3002 (For the WWW, must be lower case) Table ============================================================================= ============================================================================ File: SVX_TRATE_SUMET.PS;1 Description: 2 plots showing behavior of SVX tagging as a function of the number of primary vertices in the event and as a function of the minimum separation of the vertices. Plot shown at top presentations 3/2/95 by Bill Carithers in response to a question. Cross Reference: CDF Note 2987 (For the WWW, must be lower case) Table ============================================================================= ============================================================================ File: SVX_DISPLAY.PS;1 Description: This is a close up of the VERTEX DISPLAY for the first ever tagged top+4 jet events from 1992 that has been "stylized and labeled" Kaori and Joe. Cross Reference: CDF Note 2989 (For the WWW, must be lower case) Table ============================================================================= ============================================================================ File: SVX_40758_44414.PS;1 Description: This is a display of many aspects of our first tagged event. < Cross Reference: CDF Note 2989 (For the WWW, must be lower case) Table ============================================================================= ============================================================================ File: SVX_EFF_1A_1B.PS;1 Description: Plot schematically showing the change in btag efficiency. At the lower right is the publised run1A efficiency of 22 % (the +/- 4 % is the stat. error only) while in the upper right is the new PRL value of 42 +/- 5 %. The points in between show what happens as you apply known multiplicative factors to the run1A number in sequence. After applying the three known factors you get 37 +/- 7 % and one can see that this is consistent with our run1B determination of 42 +/- 5 %. Note that the colored points are the measured points and the black ones are all rescaling of the run1A values. Cross Reference: CDF Note 3017 (For the WWW, must be lower case) Table ============================================================================= ============================================================================ File: SVX_BKGD_SV_EVENTS.PS Description: Table of Method 1 and Method 2 backgrounds for all jet multiplicities, for Secvtx tagged EVENTS. Cross Reference: CDF Note 2965, CDF 2993 (For the WWW, must be lower case) Table ============================================================================= ============================================================================ File: SVX_BKGD_SV_EVENTS.PS Description: Table of Method 1 and Method 2 backgrounds for all jet multiplicities, for Secvtx TAGS. Cross Reference: CDF Note 2965, CDF 2993 (For the WWW, must be lower case) Table ============================================================================= ============================================================================ File: SVX_NJET_METH2_TOP.PS SVX_NJET_METH2_TOP_COLOR.PS Description: Njet plot for the SVX tags with comparison to method 2 background + top and to method 2 background only. Cross Reference: CDF Note 2993 (for the numbers into the plot) (For the WWW, must be lower case) Plot Plot_Color ============================================================================= ============================================================================ File: SVX_AWAY_JETS_VS_MC.PS;1 Description: Shows four plots of tagged inclusive e away jets versus bb MC : (a) Vertex Mass (invariant mass for four vectors of tracks in the tag) (b) # tracks in vertex (c) Vertex Pt (summed Pt of tracks in the tag) (d) c tau of tags Cross Reference: CDF Note 2989 (For the WWW, must be lower case) Plot ============================================================================= ============================================================================ File: SVX_INCL_E_JETS_VS_MC.PS;1 Description: Shows four plots of tagged inclusive e jets versus bb MC : (a) Vertex Mass (invariant mass for four vectors of tracks in the tag) (b) # tracks in vertex (c) Vertex Pt (summed Pt of tracks in the tag) (d) c tau of tags Cross Reference: CDF Note 2989 (For the WWW, must be lower case) Plot ============================================================================= ============================================================================ File: SVX_CTAU.PS;1 SVX_CTAU_COLOR.PS;1 Description: ctau of tags in W + 3 or more jets compared with TOP170 MC Cross Reference: CDF Note 2989, PRL (For the WWW, must be lower case) Plot Plot_Color ============================================================================= ============================================================================ File: SVX_RUN1B_CTAU_1_2_JET.PS Description: ctau of tags in W + 1 or 2 jets compared with TOP170 MC Cross Reference: CDF Note 2989, PRL (For the WWW, must be lower case) Plot ============================================================================= ============================================================================ File: SVX_E_TAG_EFF_VS_MC.PS;1 Description: Two plots from inclusive electron data and bb MC in one figure : (a) efficiency for tagging e jet when away jet is tagged versus Et and MC (b) ratio of Data and MC to get the scale factor vs Et Cross Reference: CDF Note 2989 (For the WWW, must be lower case) Plot ============================================================================= ============================================================================ File: SVX_MTW.PS;1 SVX_MTW_COLOR.PS;1 Description: W transverse mass from tagged W + 3 or more jet data compared to TOP170 MC Cross Reference: CDF Note 2989 (For the WWW, must be lower case) Plot Plot_Color ============================================================================= ============================================================================ File: SVX_RUN1B_CTAU_1_2_JET.PS;1 Description: ctau of tags in W + 1 and W + 2 jets run1B data compared with TOP170 MC b jets. Cross Reference: CDF Note 2989 (For the WWW, must be lower case) Plot ============================================================================= ============================================================================ File: SVX_TAGGED_JET_ET.PS;1 SVX_TAGGED_JET_ET_COLOR.PS;1 Description: ET of tagged jets in W + 3 or more jet data compared with TOP170 MC b's and VECBOS jet Et's Cross Reference: CDF Note 2989 (For the WWW, must be lower case) Plot Plot_Color ============================================================================= ============================================================================ File: SVX_VTX_MASS.PS;1 Description: Two plots from tagged W + 3 or more jet data and TOP170 : (a) Invariant mass of tracks in tags (b) track multiplicity of tags Cross Reference: CDF Note 2989 (For the WWW, must be lower case) Plot ============================================================================= ============================================================================ ============================================================================ File: DIL_57621_45230.ps Description: Event picture for dilepton Cross Reference: (For the WWW, must be lower case) Table ============================================================================= ============================================================================ File: DIL_MASS_EE.PS Description: Plot of the e-e invariant mass before the Z-mass cut. There are 4 plots - one for each jet multiplicity (0,1,>1), and one for all jet multiplicities. Cross Reference: CDF Note 2851 Plot ============================================================================ ============================================================================ File: DIL_MASS_MUMU.PS Description: Plot of the mu-mu invariant mass before the Z-mass cut. There are 4 plots - one for each jet multiplicity (0,1,>1), and one for all jet multiplicities. Cross Reference: CDF Note 2851 Plot ============================================================================ ============================================================================ File: DIL_DPHI_VS_MET_EE.PS Description: Scatter plot of delta-phi(met, lepton or jet) versus Missing Et for e-e events after the Z-mass cut. There are 4 plots - one for each jet multiplicity (0,1,>1), and one for all jet multiplicities. Cross Reference: CDF Note 2851 Plot ============================================================================ ============================================================================ File: DIL_DPHI_VS_MET_MUMU.PS Description: Scatter plot of delta-phi(met, lepton or jet) versus Missing Et for mu-mu events after the Z-mass cut. There are 4 plots - one for each jet multiplicity (0,1,>1), and one for all jet multiplicities. Cross Reference: CDF Note 2851 Plot ============================================================================ ============================================================================ File: DIL_DPHI_VS_MET_EMU.PS Description: Scatter plot of delta-phi(met, lepton or jet) versus Missing Et for e-mu events. There are 4 plots - one for each jet multiplicity (0,1,>1), and one for all jet multiplicities. Cross Reference: CDF Note 2851 Plot ============================================================================ ============================================================================ File: DIL_EMU_MISC.PS Description: Various plots for the e-mu data: 1) Et(jets) vs. Missing Et 2) Sum (Et(jets), Missing Et) 3) Delta-phi(e,mu) vs. Missing Et 4) e-mu invariant mass before MET cut Cross Reference: CDF Note 2851 Plot ============================================================================ ============================================================================ File: DIL_EMU_HT_AND_EVT_MASS.PS Description: Various plots for the e-mu data: 1) Ht = sum_et(e,mu,jets,MET) 2) Inv mass of (e,mu,jets,MET) - assuming pz=0 for neutrino Cross Reference: CDF Note 2851 Plot =========================================================================== ============================================================================ File: DIL_BACKGROUNDS_SUM.PS Description: Summary Table of backgrounds for dilepton analysis. In color ! has significance also Cross Reference: CDF Note 2851 Plot =========================================================================== ============================================================================ File: DIL_TOP_ACCEPT_TABLE.PS Description: Cross Reference: CDF Note 2851 Plot =========================================================================== ============================================================================ File: DIL_EE_DPHIVSMET_TWO_FIG.PS Description: Scatter plot of delta-phi(met, lepton or jet) versus Missing Et for e-e events. There are 2 plots - one for all jet multiplicities and one for signal region. Its in COLOR Cross Reference: CDF Note 2851 Plot =========================================================================== ============================================================================ File: DIL_MM_DPHIVSMET_TWO_FIG.PS Description: Scatter plot of delta-phi(met, lepton or jet) versus Missing Et for mu-mu events. There are 2 plots - one for all jet multiplicities and one for signal region. Its in COLOR Cross Reference: CDF Note 2851 Plot =========================================================================== ============================================================================ File: DIL_EM_DPHIVSMET_TWO_FIG.PS Description: Scatter plot of delta-phi(met, lepton or jet) versus Missing Et for e-mu events. There are 2 plots - one for all jet multiplicities and one for signal region. Its in COLOR Cross Reference: CDF Note 2851 Plot =========================================================================== ============================================================================ File: DIL_EM_DPHIVSMET_COLOR_2_MORE_BETTER.PS Description: Scatter plot of delta-phi(met, lepton or jet) versus Missing Et for e-mu events. There are 2 plots - one for all jet multiplicities and one for signal region. Its in COLOR, with DOTS in COLOR Cross Reference: CDF Note 2851 Plot =========================================================================== ============================================================================ File: DIL_EM_HT.PS Description: Ht for e-mu dilepton events, in COLOR ! Cross Reference: CDF Note 2851 Plot =========================================================================== ============================================================================ File: DIL_EM_HT_MASS_TWO_FIG.PS Description: Ht and event invariant mass for e-mu dilepton events, in COLOR ! Cross Reference: CDF Note 2851 Plot =========================================================================== ============================================================================ File: DIL_EM_DPHIVSMET_COLOR.PS Description: Scatter plot of delta-phi(met, lepton or jet) versus Missing Et for e-mu events. There are 4 plots - one for each jet multiplicity (0,1,>1), and one for all jet multiplicities. IN COLOR Cross Reference: CDF Note 2851 Plot =========================================================================== ============================================================================ File: DIL_EM_MISC_COLOR.PS Description: Various plots for the e-mu data in COLOR 1) Et(jets) vs. Missing Et 2) Sum (Et(jets), Missing Et) 3) Delta-phi(e,mu) vs. Missing Et 4) e-mu invariant mass before MET cut Cross Reference: CDF Note 2851 Plot =========================================================================== ============================================================================ File: SLT_NJETS_METHOD1.PS SLT_NJETS_METHOD1_COLOR.PS (better plot) Description: W+jets plot for SLT. Solid dots are events before tagging. Triangles are events after tagging. Boxes are Method 1 background with 15% uncertanties. Cross Reference: CDF Note 2970 and 3025 Plot ============================================================================= ============================================================================ File: SLT_NJETS_METHOD1_TOP.PS SLT_NJETS_METHOD1_TOP_COLOR.PS (better plot) Description: W+jets plot for SLT with expected Top component added in based on SECVTX excess for RUN IA+IB. Solid dots are events before tagging. Triangles are events after tagging. Boxes are Method 1 background plus top contribution with 15% uncertanties. Cross Reference: CDF Note 3025 Plot ============================================================================= ============================================================================ File: SLT_SUMMARY_TABLE.PS Description: Table showing number of SLT tags and Method 1 background and Method 2 background for W+1, W+2 and W+>=3 jets. Numbers are for RUN IA + RUN IB. Also shows probablility from PRL that the background is consistent with the observed number of >=3jet events observed. Cross Reference: CDF Note 3025 Plot ============================================================================= ============================================================================ File: SLT_FAKE_TABLE.PS Description: Table showing a check of the SLT soft electron and soft muon fake rates. The muon table takes the fake rates obtained from each Jet sample (JET20,50,70,100) separately and applies them to the combined sample. The electron table does it slightly differently; It obtains a fake rate from the whole sample and applies it separately to JET 20,50,70 and 100. Cross Reference: CDF Note 2968,2960 Plot ============================================================================= ============================================================================= ============================================================================ File: MAS_MCTOP_BACK_C.PS Description: This plot shows the top mass distribution obtained by the SQUAW fitter with 170 GeV HERWIG Monte Carlo. The bottom plot is the reconstructed mass for VECBOS+HERPRT events with SLT and SVX tagging bias. It just shows how different are the two ditributions Cross Reference: CDF Note 3026 and CDF-2485 (For the WWW, must be lower case) Plot ============================================================================= ============================================================================ File: MAS_MINUIT_PRETAG.PS (Figure 2 in PRL) MAS_MINUIT_PRETAG_COLOR.PS Description: This plot shows the mass distribution for the pretagged sample of W + 4 jet events. The dark lined histogram is the data. The shadded is the background. The background in constrained to its calculated value (within errors). Cross Reference: CDF Note 3026 (For the WWW, must be lower case) Plot Plot_Color ============================================================================= ============================================================================ File: MAS_MINUIT_PRETAG_NBC.PS MAS_MINUIT_PRETAG_NBC_COLOR.PS Description: This plot shows the mass distribution for the pretagged sample of W + 4 jet events. The dark lined histogram is the data. The shadded is the background. The background is NOT constrained. The fit is allowed to pick the background normalization Cross Reference: CDF Note 3026 (For the WWW, must be lower case) Plot Plot_Color ============================================================================= ============================================================================ File: MAS_MINUIT_PRETAG_OVER.PS Description: This plots shows the tagged event mass spectrum. It is made to be an overlay on the pretagged sample. Cross Reference: CDF Note 3026 (For the WWW, must be lower case) Plot ============================================================================= ============================================================================ File: MAS_MINUIT_TAGGED.PS (Figure 3 in PRL) MAS_MINUIT_TAGGED_COLOR.PS MAS_BTAG_1A.PS Description: This plot shows the mass distribution AFTER b tagging in a sample of W + 4 jet events. The dark lined histogram is the data. The dotted line is the background. The dashed line is the combined background + top fit (top 170) The MAS_BTAG_1A.PS is an overlay with the 1a events to show where they fall. Cross Reference: CDF Note 3026 (For the WWW, must be lower case) Plot Plot_Color Plot_1a ============================================================================= ============================================================================ File: MAS_MCTOP_BACK_C.PS Description: Monte Carlo plots of top and background fit for the top mass. The top plot shows the effect of combinatorics. Cross Reference: (For the WWW, must be lower case) Plot ============================================================================= ============================================================================ File: MAS_MINUIT_TAGGED_NBC.PS MAS_MINUIT_TAGGED_NBC_COLOR.PS Description: This plot shows the mass distribution AFTER b tagging in a sample of W + 4 jet events. The dark lined histogram is the data. The dotted line is the background. The dashed line is the combined background + top fit (top 170) The background is NOT constrained. The fit is allowed to pick the background normalization Cross Reference: CDF Note 3026 (For the WWW, must be lower case) Plot Plot_Color ============================================================================= ============================================================================ File: MAS_SCAN_FITS.PS (4 plots perpage) MAS_SCAN_FITS_COLOR.PS (one plot per page) MAS_SCAN_FITS_OVER.PS (one plot per page) Description: This is a series of plots which show the tagged data sample with background, background+top fits for various top masses. It shows (in a simple) what the likelihood plot tells us...that the data fits best to about 175. Cross Reference: (For the WWW, must be lower case) Plot Plot Plot ============================================================================= ============================================================================ File: MAS_SCAN1.PS (4 plots perpage, M=120,140,150,160) COLOR MAS_SCAN2.PS (4 plots perpage, M=160,170,175,180) " MAS_SCAN3.PS (4 plots perpage, M=185,190,200,210) " Description: This is a series of plots which show the tagged data sample with background, background+top for various top masses. The background is fixed at 31%, the rest is top. No fits were made. It shows (in a simple way) that the data fits best to about 175. Cross Reference: (For the WWW, must be lower case) Plot Plot Plot ============================================================================= ============================================================================ File: MAS_Z4J_W4J.PS MAS_Z4J_W4J_COLOR.PS Description: Upper plot: Run 1A+1B Z+4 jets (points) and VECBOS W+4 jet MC with Q^2=Pt^2 (dashed); there are 7 Z+4 jet events and so all 14 combinations by taking both combinations of permuting the two leptons for each event. 12 combinations pass the chi2<10.0 cut. Lower plot: VECBOS/HERPRT/QFL Z+4 jet MC (points) and VECBOS W+4 jet MC with Q^2=Pt^2 (dashed). Cross Reference: CDF Note 3007 (For the WWW) Plot Plot_color ============================================================================= ============================================================================ File: MAS_NONISO_EMU4J_TIGHT.PS MAS_NONISO_EMU4J_TIGHT_COLOR.PS Description: Upper plot: Run 1A+1B non-isolated e+4 jets (points) and VECBOS W+4 jet MC with Q^2=Pt^2 (dashed); there are 3 e+4 jets from Run 1A and 16 e+4 jets from Run 1B, but 2+15 of them pass the chi^2<10.0 cut. Lower plot: Run 1A+1B non-isolated mu+4 jets (points) and VECBOS W+4 jet MC with Q^2=Pt^2 (dashed); there are 18 e+4 jets from Run 1A and 23 e+4 jets from Run 1B, but 16+22 of them pass the chi^2<10.0 cut. Cross Reference: CDF Note 3007 (For the WWW) Plot Plot_Color ============================================================================= ============================================================================ File: MAS_NONISO_ALL_PT2.PS MAS_NONISO_ALL_PT2_COLOR.PS Description: (Run 1A+1B non-isolated e/mu+4 jets (points) and VECBOS W+4 jet MC with Q^2=Pt^2 (dashed)) Cross Reference: CDF Note 3007 (For the WWW) Plot Plot_Color ============================================================================= ============================================================================ File: MAS_NONISO_ALL_MW2.PS MAS_NONISO_ALL_MW2_COLOR.PS Description: (Run 1A+1B non-isolated e/mu+4 jets (points) and VECBOS W+4 jet MC with Q^2=Mw^2 (dashed)) Cross Reference: CDF Note 3007 (For the WWW) Plot Plot_Color ============================================================================= ========================================================================== File: MAS_SQUAW_PRETAG_NC.PS Description: This plot shows the mass distribution BEFORE b tagging in a sample of W + 4 jet events. The dark lined histogram is the data. The shaded area is the background. The dashed line is the combined background + top fit (top 175). The fit left the background free. Cross Reference: CDF Note 3026 (For the WWW, must be lower case) Plot =========================================================================== ============================================================================= File: MAS_SQUAW_PRETAG.PS Description: This plot shows the mass distribution BEFORE b tagging in a sample of W + 4 jet events. The dark lined histogram is the data. The shaded area is the background. The dashed line is the combined background + top fit (top 175). The fit had the background fixed to 65 events with the shape found in CDF-2978. Cross Reference: CDF Note 3026 (For the WWW, must be lower case) Plot ============================================================================ ============================================================================ File: MAS_SQUAW_TAG_NC.PS Description: This plot shows the mass distribution AFTER b tagging in a sample of W + 4 jet events. The dark lined histogram is the data. The shaded area is the background. The dashed line is the combined background + top fit (top 175). The fit left the background free. The insert shows the likelihood fit. Cross Reference: CDF Note 3026 (For the WWW, must be lower case) Plot =========================================================================== =========================================================================== File: MAS_SQUAW_TAG.PS Description: This plot shows the mass distribution AFTER b tagging in a sample of W + 4 jet events. The dark lined histogram is the data. The shaded area is the background. The dashed line is the combined background + top fit (top 175). The fit fixed the background to 6.9 events with the shape given in CDF-2978. The insert shows the likelihood fit. Cross Reference: CDF Note 3026 (For the WWW, must be lower case) Plot =========================================================================== =========================================================================== File: MAS_SQUAW_FITS.PS Description: This table shows the results of the fits to the mass distribution BEFORE and AFTER b tagging in a sample of W + 4 jet events. Cross Reference: CDF Note 3026 (For the WWW, must be lower case) Plot ========================================================================== ========================================================================== File: MAS_SYSTEMATICS.PS Description: This table shows the systematic uncertainties on the mass measurement. Cross Reference: CDF Note 3026 (For the WWW, must be lower case) Plot =========================================================================== ========================================================================== File: MAS_RUN1A_TAGGED_COLOR.PS Description: Color plot of the RUN 1A mass plot. Cross Reference: Top PRD (For the WWW, must be lower case) Plot =========================================================================== ========================================================================== File: MAS_W_TO_JJ.PS Description: Plot of the W->jj mass in the mass fit events. The mass is before fitting contraint. Cross Reference: (For the WWW, must be lower case) Plot =========================================================================== =========================================================================== File: KIN_ES_PRL1.PS Description: Plot above (a): ln(L^rel_170) distribution for top Monte Carlo (HERWIG, M_top= 170 GeV/c^2, solid line) and for VECBOS W+3 jets Monte Carlo (HERPRT, q^2=M_w^2, dashed line). The Monte Carlo events are selected applying the analysis cuts which define the ES signal sample (see CDF NOTE 2988) Plot below (b): Same distribution for the 47 events of the signal sample data from Run 1A+1B. The shaded area indicates the b-tagged events. The darkened area indicates events with multiple tags (from SVX,SLT or both). Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Plot =========================================================================== =========================================================================== File: KIN_ES_PRL2.PS Description: Plot above (a): ln(L^rel_170) distribution for top Monte Carlo (HERWIG, M_top= 170 GeV/c^2, solid line) and for VECBOS W+3 jets Monte Carlo (HERPRT, q^2=M_w^2, dashed line). The Monte Carlo events are selected applying the analysis cuts which define the ES control sample (see CDF NOTE 2988). Plot below (b): Same distribution for the 111 events of the control sample data from Run 1A+1B. The shaded area indicates the b-tagged events. The darkened area indicates events with multiple tags (from SVX,SLT or both). Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Plot =========================================================================== =========================================================================== File: KIN_ES_BTAG_SIG_TAB.PS Description: Table which summarizes the b-tag results for the signal sample data in Run1A, 1B and 1A+1B using SECVTX and the new SLT.The second column reports the number of SVX tags found in the sample, the third column gives the expected background. In the fourth and fifth column the same quantities are shown for the SLT algorithm. Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Table =========================================================================== =========================================================================== File: KIN_ES_BTAG_CONT_TAB.PS Description: Table which summarizes the b-tag results for the control sample data in Run1A, 1B and 1A+1B using SECVTX and the new SLT.The second column reports the number of SVX tags found in the sample, the third column gives the expected background. In the fourth and fifth column the same quantities are shown for the SLT algorithm. Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Table =========================================================================== =========================================================================== File: KIN_ES_SVX_TAB.PS Description: Table which summarizes the b-tag results in Run 1A,1B and their sum using SECVTX The second column reports the number of tags found in the sample, the third one is the expected background. In the fourth and fifth column the same quantities are shown, but for the region ln(L$_{rel}^{t170}$) $>$ 0.} Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Table =========================================================================== =========================================================================== File: KIN_ES_FIT_TAB.PS Description: N$_{top}$ expected in the signal and control sample for different VECBOS predictions. Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Table =========================================================================== =========================================================================== File: KIN_ES_FIT_PT_FIG.PS Description: Two component fit (dotted) to the Ln(L$_{rel}^{170}$) distribution of data in the signal sample (a) and in the control sample (b). The q$^2$--scale q$^2$ = $<$P$_T$$>^2$ was used in VECBOS. Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Plot =========================================================================== =========================================================================== File: KIN_ES_FIT_MW_SIG.PS Description: Two component fit (dotted) to the Ln(L$_{rel}^{170}$) distribution of data in the signal sample (a) and in the control sample (b). The q$^2$--scale q$^2$ = M$_W^2$ was used in VECBOS. Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Plot =========================================================================== =========================================================================== File: KIN_ES_FIT_MW_CONT.PS Description: Two component fit (dotted) to the Ln(L$_{rel}^{170}$) distribution of data in the signal sample (a) and in the control sample (b). The q$^2$--scale q$^2$ = M$_W^2$ was used in VECBOS. Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Plot =========================================================================== =========================================================================== File: KIN_ES_ET2VSET3_CS.PS Description: Scatter plots for Et 2 versus Et 3 for the control sample selection. A plot is shown for data, top monte carlo, and vecbos. Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Plot =========================================================================== =========================================================================== File: KIN_ES_ET2VSET3_SS.PS Description: Scatter plots for Et 2 versus Et 3 for the signal sample selection. A plot is shown for data, top monte carlo, and vecbos. Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Plot =========================================================================== =========================================================================== File: KIN_ES_LEGO.PS Description: Lego plot of Et2 versus Et3 for top and monte carlo. Also some words introducting L_rel. Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Plot =========================================================================== =========================================================================== File: KIN_ES_W2J_COS.PS Description: Comparison in the W+2 jet channel of cos(theta*) for the data and monte carlo Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Plot =========================================================================== =========================================================================== File: KIN_ES_W2J_et2et3.PS Description: Comparison in the W+2 jet channel of et2 and Et3 for the data and monte carlo Cross Reference: CDF Note 2988,2990 (For the WWW, must be lower case) Plot =========================================================================== =========================================================================== File: kin_h_intro.ps Description: Introduction slide for H analysis. Cross Reference: CDF Note (For the WWW, must be lower case) Plot ============================================================================ =========================================================================== File: kin_h_3plot.ps (color) Description: Three plots showing the 3 jet low threshold (top free sample), the 4 jet low threshold (background enhanced), and the signal sample. Each data distribution has a monte carlo overlay. normalized to equal area. Cross Reference: CDF Note (For the WWW, must be lower case) Plot ============================================================================ =========================================================================== File: kin_h_btags.ps (color) Description: The signal sample H distribution with the btagged events highlighted. Cross Reference: CDF Note (For the WWW, must be lower case) Plot ============================================================================ =========================================================================== File: kin_h_fit_pt2.ps Description: Combined fit of H distribution to a combination of VECBOS + TOp. (Overlay for kin_h_btags.ps). Cross Reference: CDF Note (For the WWW, must be lower case) Plot ============================================================================ =========================================================================== File: kin_h_mass_pt2.ps Description: Likelihood distribution using VECBOS with PT^2. No mass value is quoted from this measurement but the PRL mass is shown for comparison. Cross Reference: CDF Note (For the WWW, must be lower case) Plot ============================================================================ =========================================================================== File: kin_h_mass_mw2.ps Description: Likelihood distribution using VECBOS with Mw^2. No mass value is quoted from this measurement but the PRL mass is shown for comparison. Cross Reference: CDF Note (For the WWW, must be lower case) Plot ============================================================================ =========================================================================== File: kin_h_w3jlo.ps Description: Control sample (3 jets low threshold) with VECBOS comparisons with Pt^2 and Mw^2. Also the intregral plots for comparison. Cross Reference: CDF Note (For the WWW, must be lower case) Plot ============================================================================ =========================================================================== File: h_w4jlo.ps Description: Control sample (4 jets low threshold) with VECBOS comparisons with Pt^2 and Mw^2. Also the intregral plots for comparison. Cross Reference: CDF Note (For the WWW, must be lower case) Plot ============================================================================ =========================================================================== File: kin_h_w3jhi.ps Description: Signal sample with VECBOS comparisons with Pt^2 and Mw^2. Integral plots for comparison. Cross Reference: CDF Note (For the WWW, must be lower case) Plot ============================================================================ =========================================================================== File: kin_h_w4j.ps Description: Signal sample with fit and b-tagged events. Cross Reference: CDF Note (For the WWW, must be lower case) Plot ============================================================================ ============================================================================ File: GEN_1A_REVIEW.PS Description: One page summary of Run 1A results. Cross Reference: Top PRD (For the WWW, must be lower case) Plot ============================================================================= ============================================================================ File: GEN_CROSS_SECTION.PS Description: The cdf cross section point. With Run 1a point and theory curve. The cross section is the combined SVX/SLT/DIL cross section. Cross Reference: CDF 3111 (For the WWW, must be lower case) Plot ============================================================================= ============================================================================ File: GEN_MW_VS_MTOP.PS GEN_MW_VS_MTOP_BLUE.PS GEN_MW_VS_MTOP_BLUE_NO_DATAPOINT.PS GEN_MW_VS_MTOP_D0.PS Description: A plot of the CDF measurements of the W mass and the top mass with bands for different Higgs masses. The plot with "D0" includes the D0 point. Cross Reference: A W mass CDF Note? (For the WWW, must be lower case) Plot Plot_D0 Plot_Color Plot_No_Data ============================================================================= ============================================================================= Files: 1) KIN_SIGMA_COMPARE.PS 2) KIN_SIGMA_ET1.PS 3) KIN_SIGMA_ET2.PS 4) KIN_SIGMA_ET3.PS 5) KIN_SIGMA_ET4.PS 6) KIN_SIGMA_APLANARITY.PS 7) KIN_SIGMA_ET2E3.PS 8) KIN_SIGMA_H.PS 9) KIN_SIGMA_ET3ET4.PS 10) KIN_SIGMA_MET.PS 11) KIN_SIGMA_PTELEC.PS 12) KIN_SIGMA_PTMUON.PS 13) KIN_SIGMA_CMMASS.PS [ Note: these files are made for a color printer. If using a black and white printer, the plots in CDF3100 (see CDF$PUB) will look better.] Descriptions: These plots study ttbar kinematics in W + >/= 3Jet events where the W decays leptonically. The goal is to show that the data agrees with Monte Carlo predictions for several variables using data sets with ttbar content varying from about 20% to 75%. The reference note is CDF3100. MONTE CARLO PROGRAMS: ttbar is HERWIG, a parton shower Monte Carlo using leading order QCD for the hard process; QCD W+Jets is VECBOS, leading order QCD with Herwig fragmentation. DATA SETS: The data sets are all subsets of the b-tag W+3Jet data set. The main difference is that MET only triggers and CMP only muons are removed. Jets are ordered in decreasing Et; cut Et is uncorrected. The ttbar percent is based on SECVTX tagging information. Description Cuts Events ttbar Data Set I std b-tag 3 Jets > 15 GeV 170 18% Data Set II mass fitter Jet4 Et > 8 GeV 80 28-33% Data Set III high thresh Jet4 Et > 15 GeV 30 47-61% Data Set IV SVX b-tags Data Set I cuts 16 64-82% PLOTS: Compare the shapes of data and Monte Carlo distributions for different kinematic variables using cuts on the variables. >>HORIZONTAL AXIS: Fraction of TOP170 Monte Carlo events passing the cut. This fraction is with respect to the TOP170 in Data Set I. >>VERTICAL AXIS: Deviation of the fraction of data above the cut from the prediction of the VECBOS template. Deviations plotted in units of standard deviations assuming the data is distributed like VECBOS. Assuming the data is distributed like TOP170, the statistical uncertainty is usually 1.0-1.5 units (shown for selected points). N.B.: This is an integral type plot. Adjacent points have correlated errors. >>SOLID POINTS: The data. Selected data points have error bars. >>HATCHED BAND: Expectations if no TOP. Width shows the limits of two extreme q**2 scales for alpha(s): **2 and Mw**2. >>VIOLET BAND: Expectations with the indicated fraction of TOP170. Width due to the uncertainty in q**2 scale for VECBOS and any indicated uncertainty in top percent. >>BLUE BAND: Same expectations for TOP190. >>TTBAR CONTENT, DATA SETS I, II, III: The Data Set I ttbar fraction used for the Monte Carlo bands is 18%, the best estimate from the SECVTX tagging rate. The uncertainty in the 18% is not included in the band widths. The TTBAR fractions for Data Sets II and III are extrapolated from Data Set I and again the uncertainty in the 18% is not used in the band widths which are still dominated by the VECBOS q**2 scale systematics. >>TTBAR CONTENT, DATA SET IV: For Data Set IV (the SVX b-tags) the uncertainty in the ttbar fraction is included in the Monte Carlo band widths. Even though the uncertainty in the ttbar fraction is included, the Monte Carlo bands are narrower for Data Set IV demonstrating the utility of the SVX b-tagging. [Aside: The vertical axis is calculated with the following expressions. Standard Deviations = (Fract_Data - Fract_VB) / SIGMA SIGMA = SQRT( (Fract_VB+1/ND) * (1-Fract_VB+1/ND) / ND ) where Fract_Data = fraction of data events passing the variable cut. Fract_VB = fraction of VECBOS events passing the variable cut. ND = the number of data events in that Data Set. This formula for SIGMA assumes that the data is distributed like the VECBOS prediction and that statistical uncertainty in ND is SQRT(ND+1). Sample error bars on the plots show the SIGMA assuming the data is distributed like TOP. In the limit of large ND, SIGMA becomes the more familiar expression SQRT(Fract_VB*(1-Fract_VB)/ND). Also note that the VECBOS template is a mixture of two q**2 scales: **2 and Mw**2. ] List of Plots: KIN_SIGMA_COMPARE.PS: Plot that compares the predicted resolving power of a selected sample of variables for Data Set II assuming the data is the template VECBOS with a mixture of 33% TOP170. KIN_SIGMA_ET1.PS: Shows the deviations for the Et1 (the highest Et Jet). KIN_SIGMA_ET2.PS: Shows the deviations for the Et2 (the 2nd highest Et Jet). KIN_SIGMA_ET3.PS: Shows the deviations for the Et3 (the 3rd highest Et Jet). KIN_SIGMA_ET4.PS: Shows the deviations for the Et4 (the 4th highest Et Jet). KIN_SIGMA_APLANARITY.PS Shows the deviations for Aplanarity. The plane with the highest Sum(P**2) is determined. Aplanarity is 1.5 times Sum(P**2_out_of_the_plane) divided by total Sum(P**2). For this calculation, the W (reconstructed with the minimum Ez neutrino) and all the jets above threshold are used. KIN_SIGMA_ET2E3.PS Shows the deviations for (Et2-20)*(Et3-20). This is the product of the Et's of the 2nd and third highest jets minus a threshold energy. It does slightly better than Et2+Et3 and is very similar to the relative likelihood variable used in the event structure analysis. KIN_SIGMA_H.PS Shows the deviations for H which is the sum of lepton Et, the MET, and all the Jet Et's above threshold. KIN_SIGMA_ET3ET4.PS Shows the deviations for Et3+Et4 (sum of 3rd and 4th jets). KIN_SIGMA_MET.PS Shows the deviations for MET(jet corrected). KIN_SIGMA_PTELEC.PS Shows the deviations for Pt(electron) for those events where the primary lepton is an electron. KIN_SIGMA_PTMUON.PS Shows the deviations for PT(muon) for those events where the primary lepton in a muon. KIN_SIGMA_CMMASS.PS Shows the deviations for Mass of the W+Jets. It is calculated using the charged lepton, the neutrino with the minimum Ez solution, and the four highest Et jets (three if the 4th jet is below threshold). Plot_1 Plot_2 Plot_3 Plot_4 Plot_5 Plot_6 Plot_7 Plot_8 Plot_9 Plot_10 Plot_11 Plot_12 Plot_13 ============================================================================== =========================================================================== Files: MAS_MJJ_PRETAG.PS MAS_MJJ_BTAG.PS MAS_MJJ_MC.PS Description: The analysis is described in CDF Note 3086. All plots are generated by removing the Mjj=Mw constraint in the Minuit fitter and plotting the invariant mass of the jets assigned to the W decay in the lowest chi squared configuration. MAS_MJJ_PRETAG.PS - Distribution for 88 events with 4th jet from standard mass analysis - chi^2 (with Mjj=Mw) <10. Large histogram has Vecbos normalized to expected background as determined by constrained fit (61 events). The inset shows the background subtracted distribution and top 175. MAS_MJJ_BTAG.PS - Distribution for 19 b-tagged events - again chi^2 <10. Also shown are the distributions for top 175/vecbos normalized to expected signal(16)/background(3). MAS_MJJ_MC.PS - Plots from Monte Carlo. (a)-(c) are all dijet combinations for vecbos, top 130, and top 175 respectively. (d)-(f) are the lowest chi^2 solution for vecbos, top 130, top 175. Plot_1 Plot_2 Plot_3 ============================================================================== ============================================================================== Files: KIN_TTBAR_MASS_BTAG.PS KIN_TTBAR_MASS_PRETAG.PS KIN_TTBAR_PT_BTAG.PS KIN_TTBAR_PT_PRETAG.PS Description: KIN_TTBAR_MASS_BTAG.PS (Reconstructed invariant mass of ttbar for Run 1A+1B (67 pb^-1) data of the b-tagged sample) (Solid histogram: 19 events of b-tagged data Dotted histogram: 6 events of backgrounds Dashed histogram: backgrounds+MC top 175 GeV) KIN_TTBAR_MASS_PRETAG.PS (Reconstructed invariant mass of ttbar for Run 1A+1B (67 pb^-1) data before the b-tagging) (Points: 88 events of pretagged data Dotted histogram: 61 events of backgrounds Dashed histogram: backgrounds+MC top 175 GeV) KIN_TTBAR_PT_BTAG.PS (Reconstructed Pt of ttbar for Run 1A+1B (67 pb^-1) data of the b-tagged sample) (Solid histogram: 19 events of b-tagged data Dotted histogram: 6 events of backgrounds Dashed histogram: backgrounds+MC top 175 GeV) KIN_TTBAR_PT_PRETAG.PS (Reconstructed Pt of ttbar for Run 1A+1B (67 pb^-1) data before the b-tagging) (Points: 88 events of pretagged data Dotted histogram: 61 events of backgrounds Dashed histogram: backgrounds+MC top 175 GeV) Cross Reference: CDF Note Plot_1 Plot_2 Plot_3 Plot_4 =============================================================================== ============================================================================ Files: GEN_VTB_DIL_COLOR.PS GEN_VTB_LJ1_COLOR.PS GEN_VTB_LJ2_COLOR.PS GEN_VTB_ALL_COLOR.PS Referenc: Cdf Note 3056 Description: GEN_VTB_DIL_COLOR.PS Likelihood function for BF(t->Wb)/BF(t ->Wq) for the six event dilepton data sample. GEN_VTB_LJ1_COLOR.PS As above, for the 19 event lepton+4 jet sample. GEN_VTB_LJ2_COLOR.PS As above, with a m(top candidate) > 150 GeV cut applied. GEN_VTB_ALL_COLOR.PS Likelihood function for BF(t->Wb)/BF(t ->Wq), for the combined dilepton and lepton + jets (no mass cut) data. This is the plot where the blessed branching fraction and Vtb limits are extracted from. The other three are there to show that the dileptons and single leptons agree, and that imposing a mass cut doesn't change much. (Also black and white versions of the plots with _BW instead of _COLOR) Plot_1 Plot_1 Plot_1 Plot_1 ============================================================================= ============================================================================ Files: KIN_ET2ET3_ALL.PS;1 KIN_ET3ET4_ALL.PS;1 KIN_LEP_ET_ALL.PS;1 KIN_MAXCOS_ALL.PS;1 KIN_MAX_ETA_ALL.PS;1 KIN_ET2ET3_30T.PS;1 KIN_ET3ET4_30T.PS;1 KIN_LEP_ET_30T.PS;1 KIN_MAXCOS_30T.PS;1 KIN_MAX_ETA_30T.PS;1 Description: Distributions of various kinematic variables. The files with the "_ALL" have top 170 and VECBOS normalized to the full number of events. The "_30T" have the VECBOS (70%) and Top 170 (30%) mixed. The data sample uses events with a fourth jet as with the mass analysis but does not include the MET triggers. The variables are: ET2ET3 ..... the of the second and third highest jet. ET3ET4 ..... the of the third and fourth highest jet. LEPET....... lepton Et MAXCOS...... maximum cos(theta) for a jet in the center of mass of the lepton, neutrino, and jets above threshold. Only the three highest jets are considered. MAXETA...... Maximum eta for a jet (Only the three highest jets are considered.) Cross Ref: CDF Note 2972 Plot_all_1 Plot_all_2 Plot_all_3 Plot_all_4 Plot_all_5 Plot_30t_1 Plot_30t_2 Plot_30t_3 Plot_30t_4 Plot_30t_5 ============================================================================== =========================================================================== Files: HAD_NJET_RATES_NOSUMET.PS HAD_BOS_NOSUMET.PS HAD_SUMET.PS HAD_NJET_RATES_SUMETGE290.PS HAD_BOS_NOSUMET.PS HAD_DR_DATA_MC.PS HAD_BBMC_AND_4J.PS HAD_RUN1A_1B_SINGLE_SEEN_AND_PRED.PS HAD_RUN1A_1B_SINGLE_SEEN_AND_PRED.PS HAD_TAGS_ALL.PS Reference: CDF Note 3088 The following is a brief description of the plots and tables: File Name: Description: ---------------------------------------------------------------------- NJET_RATES_NOSUMET.PS First page shows the jet multiplicity distributions for data (top) and MC (bottom), for 0, 1 and 2 b tags. Second page shows the tagging rates for data (top) and MC (bottom) for single and double b-tags. No kinematic cuts have been applied. BOS_NOSUMET.PS Top plot shows (signal+backgnd)/signal for events with ge.5 jets for 0,1 and 2 b-tags. Bottom plot shows the same for events with ge.6 jets. No kinematic cuts have been applied. SUMET.PS Top plot compares the sumet distributions for data(solid) and top MC(dashed) for events with ge.6 jets. (top MC distribution has been normalized to the number of entries in the data histogram). Bottom plot shows signal**2/(signal+backgnd) as a function of sumet cut. (signal is the number of expected top events). NJET_RATES_SUMETGE290.PS First page shows the jet multiplicity distributions for data (top) and MC (bottom), for 0, 1 and 2 b tags. Second page shows the tagging rates for data (top) and MC (bottom) for single and double b-tags. Sumet ge 290 cut has been applied. BOS_NOSUMET.PS Top plot shows (signal+backgnd)/signal for events with ge.5 jets for 0,1 and 2 b-tags. Bottom plot shows the same for events with ge.6 jets. Sumet ge 290 cut has been applied. DR_DATA_MC.PS The plot compares the DeltaR distribution between the two tagged jets for data (solid) and top MC(dashed) for 4,5,6 and 7 jet events. The MC diistributions have been normalized to the number of double tagged events observed in data. BBMC_AND_4J.PS The plot compares the shapes of the DeltaR distributions for 4-jet events in data (triangles) and in bb/cc MC (dashed). The data distribution has been normalized down to the MC distribution due to the limited statistics of MC. RUN1A_1B_SINGLE_SEEN_AND_PRED.PS These tables compare the number of single tagged events (positive and negative) seen and predicted using a tagging rate derived from 4-jet events, for Run 1A and Run 1B separately. RUN1A_1B_SINGLE_SEEN_AND_PRED.PS Top table compares the number of observed double tagged events in Run 1A and Run 1B combined with the predicted background. Middle table compares the observed excess with top expectation. Bottom table compares the number of observed events with background prediction and top expectation combined. TAGS_ALL.PS First plot compares the number of observed double tagged events with the predicted background for different jet multiplicities. Second plot compares the number of observed double tagged events with background prediction and top expectation combined. =============================================================================== =========================================================================== Files: KIN_TTBAR_MASS_DATA_CONST.PS KIN_TTBAR_MASS_ZPR_TT.PS KIN_TTBAR_MASS_ALL_CONST.PS KIN_TTBAR_MASS_PULLS_MC.PS Ref: CDF Note 3105 Description: Color plots: KIN_TTBAR_MASS_DATA_CONST.PS - The reconstructed ttbar mass for the PRL b-tagged data events after the top mass has been constrained to be 176 GeV/c^2. There are only 17 events (instead of 19) because 2 events are lost after a chi2 less than 10 cut. The top+background is normalized to 17 events. KIN_TTBAR_MASS_ZPR_TT.PS - The reconstructed ttbar mass distribution from Standard Model top production plus Topcolor Zprime ("Topcolor Assisted Technicolor" by Chris Hill) top production for various Zprime masses. The expected number of top events from Standard Model production was calculated using the theoretical cross section in 67.3 pb^-1 of data. The top mass was constrained to be 176 GeV/c^2. Black and White plots: KIN_TTBAR_MASS_ALL_CONST.PS - The reconstructed ttbar mass distributions for Standard Model top, W+jets background and Topcolor Zprime. All distributions are from Monte Carlo and have the top mass constrained to 176 GeV/c^2. KIN_TTBAR_MASS_PULLS_MC.PS - Top two plots are the reconstructed ttbar mass for top MC. The upper left plot has no top mass constraint. The upper right plot has the top mass constrained to 175 GeV/c^2. The bottom two plots are the difference between the generated ttbar mass and the reconstructed ttbar mass with and without the top mass constraint. ==============================================================================