********** Eigenvalues for the 2+1 transverse lattice ********** Couplings: m^2, G^2 N, la_1, la_2, la_3, tau_1, tau_2 0 1 2 3 4 5 6 (2-6 /a) Use chi^2 fit with 14 criteria, and tolerance 0.001. Overall scale from minimizing chi^2. 2 parity doublets with fractional errors 2 0.5. Spectrum for P_perp a = (0) ( 0.25) using (# states, o, multiplet, c^2 error for each) = (4, 1 & -1, 1 & 2, 0.5 2 0.5 0.5) (4, 1 & -1, 2 & 1, 0.5 0.5 0.5 0.5). Spectra extrapolated using (K,p) = (18/2,6) (18/2,8) (20/2,6) (20/2,8) (26/2,6) (32/2,6) . Winding potential using (n,K,p) = ( 2,20/2,4) ( 2,20/2,6) ( 2,20/2,4) ( 2,20/2,6) ( 2,24/2,4) ( 2,28/2,4) ( 3,19/2,5) ( 3,19/2,7) ( 3,21/2,5) ( 3,21/2,7) ( 3,23/2,5) ( 3,27/2,5) ( 4,18/2,6) ( 4,18/2,8) ( 4,20/2,6) ( 4,20/2,8) ( 4,22/2,6) ( 4,26/2,6) . Heavy potential determined using (n,K,p,K_max) = ( 1,-32/2,2,3) ( 1,-32/2,4,3) ( 1,-32/2,2,4.5) ( 1,-44/2,2,3) ( 1,-44/2,2,4.5) ( 1,-60/2,2,3) ( 1,-60/2,2,4.5) , L = 3 4 6 (all in G^2 N units); relative scale error 0.2. Roundness determined using (n,K,p,K_max) = ( 1,-19/2,3,3) ( 1,-19/2,5,3) ( 1,-19/2,3,4.5) ( 1,-33/2,3,3) ( 1,-33/2,3,4.5) ( 1,-49/2,3,3) ( 1,-49/2,3,4.5) L=0 and error 0.2; ( 1,-19/2,3,3) ( 1,-19/2,5,3) ( 1,-19/2,3,4.5) ( 1,-33/2,3,3) ( 1,-33/2,3,4.5) ( 1,-49/2,3,3) ( 1,-49/2,3,4.5) L=2.5 and error 0.2; ( 1,-19/2,3,3) ( 1,-19/2,5,3) ( 1,-19/2,3,4.5) ( 1,-33/2,3,3) ( 1,-33/2,3,4.5) ( 1,-49/2,3,3) ( 1,-49/2,3,4.5) L=5 and error 0.2; all in G^2 N units. p-extrapolation using n=( 1) and (K,p) = (21/2,3) (27/2,3) (39/2,3) (21/2,5) (27/2,5) (21/2,7) (23/2,7) . Result format: Fit info, # steps, chi^2, p damping, and scale G^2 N/sigma. The 7 couplings (G^2 N units) and which--if any--were fit. Winding potential and heavy source potential fits. Roundness with calculated and derived values (G^2 N units). The rescaled spectrum for each P_perp*a and c^2 values. 5 101 7.634001 -1.307201 7.299209 0.001968 1.000000 -0.025427 -0.153165 31.261530 -0.687528 -0.736908 2 3 4 5 6 0.204299 -0.477658 0.313470 0.138093 0.232778 -0.227072 0.648578 0.619549 0.734062 0.749547 1.032974 1.022104 16.135437 16.193910 1.395130 29.295573 29.259087 -0.870547 35.390389 35.413077 0.541321 46.452298 46.461870 0.228382 24.330946 24.368529 0.896717 45.546701 45.589083 1.011192 60.557508 60.564335 0.162867 63.636251 63.676596 0.962615 5 102 7.703333 -1.307201 7.299209 0.001968 1.000000 -0.023052 -0.154605 36.615337 1.029060 -0.767543 2 3 4 5 6 0.204299 -0.477658 0.313470 0.138093 0.232778 -0.227072 0.648578 0.619549 0.734062 0.749547 1.032974 1.022104 16.135437 16.193910 1.395130 29.295573 29.259087 -0.870547 35.390389 35.413077 0.541321 46.452298 46.461870 0.228382 24.330946 24.368529 0.896717 45.546701 45.589083 1.011192 60.557508 60.564335 0.162867 63.636251 63.676596 0.962615 5 102 10.355179 -2.574380 8.305212 0.007919 1.000000 0.011939 -0.105326 70.644093 -1.098951 -0.982277 2 3 4 5 6 0.286805 -0.480304 0.302486 0.119338 0.239444 -0.222491 0.694644 0.720213 0.748519 0.804730 1.037446 1.004809 32.868568 32.907116 1.469155 41.753809 41.733504 -0.773865 43.767473 43.779960 0.475907 65.804895 65.808223 0.126825 30.790746 30.811338 0.784794 65.150805 65.179947 1.110644 77.111402 77.125113 0.522571 80.339000 80.341687 0.102422 5 102 10.091300 -2.567798 8.274100 0.007919 1.000000 0.013885 -0.107240 171.185952 1.432799 -1.071143 2 3 4 5 6 0.286087 -0.480416 0.302055 0.120739 0.201316 -0.186053 0.694456 0.693616 0.730839 0.778416 1.007008 0.979659 32.765001 32.803725 1.466609 41.739255 41.718725 -0.777548 43.810594 43.823279 0.480411 65.597064 65.600468 0.128940 30.644055 30.664788 0.785242 64.868422 64.897794 1.112415 76.799302 76.813007 0.519050 80.034560 80.037970 0.129148 5 100 9.550571 -1.596001 6.972240 0.018006 1.000000 -0.056960 -0.150789 36.618576 -0.935644 -0.966549 2 3 4 5 6 0.292228 -0.489367 0.287835 0.144361 0.205050 -0.198638 0.721397 0.696453 0.789021 0.814048 1.092231 1.077235 23.817002 23.863904 1.528967 34.672268 34.638915 -1.087299 37.820702 37.835370 0.478158 54.619182 54.624262 0.165622 27.170798 27.194629 0.776908 54.496100 54.527536 1.024796 66.459526 66.467097 0.246799 68.622452 68.638397 0.519814