Deleted from the muon block. May be resurrected, if usefulness at least doubtful. XTRAM 1 mu_x_tra(i) R*4:16:[-500.,500.] x coordinate where track vector defined,Q(LPMUO+25) YTRAM 1 mu_y_tra(i) R*4:16:[-500.,500.] y coordinate where track vector defined,Q(LPMUO+26) ZTRAM 1 mu_z_tra(i) R*4:16:[-500.,500.] z coordinate where track vector defined,Q(LPMUO+27) ISOL0M 1 mu_isol_cells(i) R*4 ???? isolation (based on cells hit only), Q(LPMUO+28) ISOL1M 1 mu_isol_neighb(i) R*4 ???? isolation (based on cells hit+neighbors), Q(LPMUO+29) ISOL4M 1 mu_isol_cone4(i) R*4 ???? isolation (based on cone size 0.4), Q(LPMUO+31) ISOL6M 1 mu_isol_cone6(i) R*4 ???? isolation (based on cone size 0.6), Q(LPMUO+32) CONEM 1 mu_CD_cone(i) R*4:10:[0.,360.] cone size considered for CD track finding, Q(LPMUO+40) IMPVGM 1 mu_imp_par_glfit(i) R*4:10:[-999.,30.] impact parameter after global fit ,Q(LPMUO+42) TRG1M_ 2 mu_trig1(i) U*4 trigger 1, IQ(LPMUO+48) TRG2M_ 2 mu_trig2(i) U*4 trigger 2, IQ(LPMUO+49) TRG3M_ 2 mu_trig3(i) U*4 trigger 3, IQ(LPMUO+50) TRG4M_ 2 mu_trig4(i) U*4 trigger 4, IQ(LPMUO+51) IMPCBM 1 mu_imp_bend_glob(i) R*4:14:[-100.,100.] impact parameter, bend view , incl. CD,Q(LPMUO+58) IMPCNM 1 mu_imp_nonbend_glob(i) R*4:14:[-100.,100.] impact parameter, nonbend view, incl. CD, Q(LPMUO+59) ENEM0M 1 mu_em_hit(i) R*4:16:[0.,1000.] EM energy in cells supposedly hit by muon, Q(LPMUO+78) ENEM1M 1 mu_em_1neighb(i) R*4:16:[-10.,1000.] hit cells and 1 nearest neighbors, Q(LPMUO+79) ENEM2M 1 mu_em_2neighb(i) R*4:16:[-10.,1000.] hit cells and 2 nearest neighbors, Q(LPMUO+80) ENEM4M 1 mu_em_4neighb(i) R*4:16:[-10.,1000.] hit cells and 4 nearest neighbors, Q(LPMUO+81) ENEM6M 1 mu_em_6neighb(i) R*4:16:[-10.,1000.] hit cells and 6 nearest neighbors, Q(LPMUO+82) ENEB0M 1 mu_e_hit_opp(i) R*4:16:[-10.,1000.] Total energy in hit cells on opposite side Q(LPMUO+86) ENEB1M 1 mu_e_1neighb_opp(i) R*4:16:[-10.,1000.] Total E (in cells hit + 1 neighbor) opp side, Q(LPMUO+87) ENEB3M 1 mu_e_3neighb_opp(i) R*4:16:[-10.,1000.] Total E (in cells hit + 3 neighbor)opp side , Q(LPMUO+89) E6CM 1 mu_e6c(i) R*4 ????? ????? E7CM 1 mu_e7c(i) R*4 ????? ????? E8CM 1 mu_e8c(i) R*4 ????? ????? ET6CM 1 mu_et6c(i) R*4 ????? ????? ET7CM 1 mu_et7c(i) R*4 ????? ????? ET8CM 1 mu_et8c(i) R*4 ????? ????? TKNMU 1 mu_trkno(i) I*4:10 associated track number EEMM 1 mu_eEM_muon(i) R*4:12:[0.,1000.] ???? ????? EFHM 1 mu_eFH_muon(i) R*4:12:[-100.,1000.] ???? ????? ECHM 1 mu_eCH_muon(i) R*4:12:[0.,1000.] ???? ????? TRESM 1 mu_resid(i) R*4:12:[0.,20.] RMS of residuals, Q(LPMUO+91) TRESVM 1 mu_resid_vert(i) R*4:12:[0.,20.] RMS of residuals, vertex constrained fit Q(LPMUO+91) EN3M 1 mu_e_3x3(i) R*4:16:[0,1000.] total calorimeter energy found in 3x3 tower, Q(LPMUO+97) EFRCHM 1 mu_en_fract_CH(i) R*4:10:[0,1.] fraction of energy in last layer Q(LPMUO+98) LYRM 1 mu_lat_layer(i) U*4:5 layer number at which the muon seems to emerge from a region of higher energy deposition (the 'jet') Q(LPMUO+99) ECHI2M 1 mu_e_chi2_tail(i) R*4:14:[0,100.] an energy chi square of the track summed over all layers after the muon emerges from the 'jet',Q(LPMUO+100)