$============================================ Ex=0.000(1p3/2)AK reset REACTION: 52Ti(d,p)53Ti(3/2- 0.000) ELAB= 17.000 PARAMETERSET dpsb r0target lstep=1 lmin=0 lmax=30 maxlextrap=0 asymptopia=50 PROJECTILE wavefunction av18 r0=1 a=0.5 l=0 rc0=1.2 ; TARGET JBIGA=0+ nodes=1 l=1 jp=3/2 $node is n-1 r0=1.25 a=.65 vso=6 rso0=1.10 aso=.65 rc0=1.3 ; INCOMING $An and Cai (2006) E < 183 | 12 < A < 238 | http://dx.doi.org/10.1103/PhysRevC.73.054605 v = 91.435 r0 = 1.150 a = 0.766 vi = 2.161 ri0 = 1.332 ai = 0.482 vsi = 10.310 rsi0 = 1.375 asi = 0.762 vso = 3.557 rso0 = 0.972 aso = 1.011 vsoi = 0.000 rsoi0 = 0.000 asoi = 0.000 rc0 = 1.303 ; OUTGOING $Koning and Delaroche (2009) 0.001 < E < 200 | 24 < A < 209 | Iso. Dep. | http://dx.doi.org/10.1016/S0375-9474(02)01321-0 v = 53.015 r0 = 1.196 a = 0.670 vi = 1.734 ri0 = 1.196 ai = 0.670 vsi = 8.705 rsi0 = 1.283 asi = 0.546 vso = 5.438 rso0 = 1.013 aso = 0.590 vsoi = -0.092 rsoi0 = 1.013 asoi = 0.590 rc0 = 1.265 ; anglemin=0.000000 anglemax=180.000000 anglestep=0.100000 ; $============================================ Ex=1.303(1p1/2)AK reset REACTION: 52Ti(d,p)53Ti(1/2- 1.303) ELAB= 17.000 PARAMETERSET dpsb r0target lstep=1 lmin=0 lmax=30 maxlextrap=0 asymptopia=50 PROJECTILE wavefunction av18 r0=1 a=0.5 l=0 rc0=1.2 ; TARGET JBIGA=0+ nodes=1 l=1 jp=1/2 $node is n-1 r0=1.25 a=.65 vso=6 rso0=1.10 aso=.65 rc0=1.3 ; INCOMING $An and Cai (2006) E < 183 | 12 < A < 238 | http://dx.doi.org/10.1103/PhysRevC.73.054605 v = 91.435 r0 = 1.150 a = 0.766 vi = 2.161 ri0 = 1.332 ai = 0.482 vsi = 10.310 rsi0 = 1.375 asi = 0.762 vso = 3.557 rso0 = 0.972 aso = 1.011 vsoi = 0.000 rsoi0 = 0.000 asoi = 0.000 rc0 = 1.303 ; OUTGOING $Koning and Delaroche (2009) 0.001 < E < 200 | 24 < A < 209 | Iso. Dep. | http://dx.doi.org/10.1016/S0375-9474(02)01321-0 v = 53.545 r0 = 1.196 a = 0.670 vi = 1.592 ri0 = 1.196 ai = 0.670 vsi = 8.828 rsi0 = 1.283 asi = 0.546 vso = 5.467 rso0 = 1.013 aso = 0.590 vsoi = -0.084 rsoi0 = 1.013 asoi = 0.590 rc0 = 1.265 ; anglemin=0.000000 anglemax=180.000000 anglestep=0.100000 ; $============================================ Ex=1.635(0f5/2)AK reset REACTION: 52Ti(d,p)53Ti(5/2- 1.635) ELAB= 17.000 PARAMETERSET dpsb r0target lstep=1 lmin=0 lmax=30 maxlextrap=0 asymptopia=50 PROJECTILE wavefunction av18 r0=1 a=0.5 l=0 rc0=1.2 ; TARGET JBIGA=0+ nodes=0 l=3 jp=5/2 $node is n-1 r0=1.25 a=.65 vso=6 rso0=1.10 aso=.65 rc0=1.3 ; INCOMING $An and Cai (2006) E < 183 | 12 < A < 238 | http://dx.doi.org/10.1103/PhysRevC.73.054605 v = 91.435 r0 = 1.150 a = 0.766 vi = 2.161 ri0 = 1.332 ai = 0.482 vsi = 10.310 rsi0 = 1.375 asi = 0.762 vso = 3.557 rso0 = 0.972 aso = 1.011 vsoi = 0.000 rsoi0 = 0.000 asoi = 0.000 rc0 = 1.303 ; OUTGOING $Koning and Delaroche (2009) 0.001 < E < 200 | 24 < A < 209 | Iso. Dep. | http://dx.doi.org/10.1016/S0375-9474(02)01321-0 v = 53.681 r0 = 1.196 a = 0.670 vi = 1.557 ri0 = 1.196 ai = 0.670 vsi = 8.856 rsi0 = 1.283 asi = 0.546 vso = 5.474 rso0 = 1.013 aso = 0.590 vsoi = -0.082 rsoi0 = 1.013 asoi = 0.590 rc0 = 1.265 ; anglemin=0.000000 anglemax=180.000000 anglestep=0.100000 ; $============================================ Ex=1.808(0f7/2)AK reset REACTION: 52Ti(d,p)53Ti(7/2- 1.808) ELAB= 17.000 PARAMETERSET dpsb r0target lstep=1 lmin=0 lmax=30 maxlextrap=0 asymptopia=50 PROJECTILE wavefunction av18 r0=1 a=0.5 l=0 rc0=1.2 ; TARGET JBIGA=0+ nodes=0 l=3 jp=7/2 $node is n-1 r0=1.25 a=.65 vso=6 rso0=1.10 aso=.65 rc0=1.3 ; INCOMING $An and Cai (2006) E < 183 | 12 < A < 238 | http://dx.doi.org/10.1103/PhysRevC.73.054605 v = 91.435 r0 = 1.150 a = 0.766 vi = 2.161 ri0 = 1.332 ai = 0.482 vsi = 10.310 rsi0 = 1.375 asi = 0.762 vso = 3.557 rso0 = 0.972 aso = 1.011 vsoi = 0.000 rsoi0 = 0.000 asoi = 0.000 rc0 = 1.303 ; OUTGOING $Koning and Delaroche (2009) 0.001 < E < 200 | 24 < A < 209 | Iso. Dep. | http://dx.doi.org/10.1016/S0375-9474(02)01321-0 v = 53.752 r0 = 1.196 a = 0.670 vi = 1.539 ri0 = 1.196 ai = 0.670 vsi = 8.871 rsi0 = 1.283 asi = 0.546 vso = 5.478 rso0 = 1.013 aso = 0.590 vsoi = -0.080 rsoi0 = 1.013 asoi = 0.590 rc0 = 1.265 ; anglemin=0.000000 anglemax=180.000000 anglestep=0.100000 ; $============================================ Ex=1.987(0f5/2)AK reset REACTION: 52Ti(d,p)53Ti(5/2- 1.987) ELAB= 17.000 PARAMETERSET dpsb r0target lstep=1 lmin=0 lmax=30 maxlextrap=0 asymptopia=50 PROJECTILE wavefunction av18 r0=1 a=0.5 l=0 rc0=1.2 ; TARGET JBIGA=0+ nodes=0 l=3 jp=5/2 $node is n-1 r0=1.25 a=.65 vso=6 rso0=1.10 aso=.65 rc0=1.3 ; INCOMING $An and Cai (2006) E < 183 | 12 < A < 238 | http://dx.doi.org/10.1103/PhysRevC.73.054605 v = 91.435 r0 = 1.150 a = 0.766 vi = 2.161 ri0 = 1.332 ai = 0.482 vsi = 10.310 rsi0 = 1.375 asi = 0.762 vso = 3.557 rso0 = 0.972 aso = 1.011 vsoi = 0.000 rsoi0 = 0.000 asoi = 0.000 rc0 = 1.303 ; OUTGOING $Koning and Delaroche (2009) 0.001 < E < 200 | 24 < A < 209 | Iso. Dep. | http://dx.doi.org/10.1016/S0375-9474(02)01321-0 v = 53.825 r0 = 1.196 a = 0.670 vi = 1.520 ri0 = 1.196 ai = 0.670 vsi = 8.886 rsi0 = 1.283 asi = 0.546 vso = 5.482 rso0 = 1.013 aso = 0.590 vsoi = -0.079 rsoi0 = 1.013 asoi = 0.590 rc0 = 1.265 ; anglemin=0.000000 anglemax=180.000000 anglestep=0.100000 ; $============================================ Ex=2.222(1p3/2)AK reset REACTION: 52Ti(d,p)53Ti(3/2- 2.222) ELAB= 17.000 PARAMETERSET dpsb r0target lstep=1 lmin=0 lmax=30 maxlextrap=0 asymptopia=50 PROJECTILE wavefunction av18 r0=1 a=0.5 l=0 rc0=1.2 ; TARGET JBIGA=0+ nodes=1 l=1 jp=3/2 $node is n-1 r0=1.25 a=.65 vso=6 rso0=1.10 aso=.65 rc0=1.3 ; INCOMING $An and Cai (2006) E < 183 | 12 < A < 238 | http://dx.doi.org/10.1103/PhysRevC.73.054605 v = 91.435 r0 = 1.150 a = 0.766 vi = 2.161 ri0 = 1.332 ai = 0.482 vsi = 10.310 rsi0 = 1.375 asi = 0.762 vso = 3.557 rso0 = 0.972 aso = 1.011 vsoi = 0.000 rsoi0 = 0.000 asoi = 0.000 rc0 = 1.303 ; OUTGOING $Koning and Delaroche (2009) 0.001 < E < 200 | 24 < A < 209 | Iso. Dep. | http://dx.doi.org/10.1016/S0375-9474(02)01321-0 v = 53.921 r0 = 1.196 a = 0.670 vi = 1.495 ri0 = 1.196 ai = 0.670 vsi = 8.905 rsi0 = 1.283 asi = 0.546 vso = 5.487 rso0 = 1.013 aso = 0.590 vsoi = -0.078 rsoi0 = 1.013 asoi = 0.590 rc0 = 1.265 ; anglemin=0.000000 anglemax=180.000000 anglestep=0.100000 ; $============================================ Ex=2.403(1p1/2)AK reset REACTION: 52Ti(d,p)53Ti(1/2- 2.403) ELAB= 17.000 PARAMETERSET dpsb r0target lstep=1 lmin=0 lmax=30 maxlextrap=0 asymptopia=50 PROJECTILE wavefunction av18 r0=1 a=0.5 l=0 rc0=1.2 ; TARGET JBIGA=0+ nodes=1 l=1 jp=1/2 $node is n-1 r0=1.25 a=.65 vso=6 rso0=1.10 aso=.65 rc0=1.3 ; INCOMING $An and Cai (2006) E < 183 | 12 < A < 238 | http://dx.doi.org/10.1103/PhysRevC.73.054605 v = 91.435 r0 = 1.150 a = 0.766 vi = 2.161 ri0 = 1.332 ai = 0.482 vsi = 10.310 rsi0 = 1.375 asi = 0.762 vso = 3.557 rso0 = 0.972 aso = 1.011 vsoi = 0.000 rsoi0 = 0.000 asoi = 0.000 rc0 = 1.303 ; OUTGOING $Koning and Delaroche (2009) 0.001 < E < 200 | 24 < A < 209 | Iso. Dep. | http://dx.doi.org/10.1016/S0375-9474(02)01321-0 v = 53.996 r0 = 1.196 a = 0.670 vi = 1.476 ri0 = 1.196 ai = 0.670 vsi = 8.919 rsi0 = 1.283 asi = 0.546 vso = 5.491 rso0 = 1.013 aso = 0.590 vsoi = -0.077 rsoi0 = 1.013 asoi = 0.590 rc0 = 1.265 ; anglemin=0.000000 anglemax=180.000000 anglestep=0.100000 ; $============================================ Ex=2.762(1p3/2)AK reset REACTION: 52Ti(d,p)53Ti(3/2- 2.762) ELAB= 17.000 PARAMETERSET dpsb r0target lstep=1 lmin=0 lmax=30 maxlextrap=0 asymptopia=50 PROJECTILE wavefunction av18 r0=1 a=0.5 l=0 rc0=1.2 ; TARGET JBIGA=0+ nodes=1 l=1 jp=3/2 $node is n-1 r0=1.25 a=.65 vso=6 rso0=1.10 aso=.65 rc0=1.3 ; INCOMING $An and Cai (2006) E < 183 | 12 < A < 238 | http://dx.doi.org/10.1103/PhysRevC.73.054605 v = 91.435 r0 = 1.150 a = 0.766 vi = 2.161 ri0 = 1.332 ai = 0.482 vsi = 10.310 rsi0 = 1.375 asi = 0.762 vso = 3.557 rso0 = 0.972 aso = 1.011 vsoi = 0.000 rsoi0 = 0.000 asoi = 0.000 rc0 = 1.303 ; OUTGOING $Koning and Delaroche (2009) 0.001 < E < 200 | 24 < A < 209 | Iso. Dep. | http://dx.doi.org/10.1016/S0375-9474(02)01321-0 v = 54.143 r0 = 1.196 a = 0.670 vi = 1.439 ri0 = 1.196 ai = 0.670 vsi = 8.945 rsi0 = 1.283 asi = 0.546 vso = 5.499 rso0 = 1.013 aso = 0.590 vsoi = -0.075 rsoi0 = 1.013 asoi = 0.590 rc0 = 1.265 ; anglemin=0.000000 anglemax=180.000000 anglestep=0.100000 ; $============================================ Ex=3.064(0f5/2)AK reset REACTION: 52Ti(d,p)53Ti(5/2- 3.064) ELAB= 17.000 PARAMETERSET dpsb r0target lstep=1 lmin=0 lmax=30 maxlextrap=0 asymptopia=50 PROJECTILE wavefunction av18 r0=1 a=0.5 l=0 rc0=1.2 ; TARGET JBIGA=0+ nodes=0 l=3 jp=5/2 $node is n-1 r0=1.25 a=.65 vso=6 rso0=1.10 aso=.65 rc0=1.3 ; INCOMING $An and Cai (2006) E < 183 | 12 < A < 238 | http://dx.doi.org/10.1103/PhysRevC.73.054605 v = 91.435 r0 = 1.150 a = 0.766 vi = 2.161 ri0 = 1.332 ai = 0.482 vsi = 10.310 rsi0 = 1.375 asi = 0.762 vso = 3.557 rso0 = 0.972 aso = 1.011 vsoi = 0.000 rsoi0 = 0.000 asoi = 0.000 rc0 = 1.303 ; OUTGOING $Koning and Delaroche (2009) 0.001 < E < 200 | 24 < A < 209 | Iso. Dep. | http://dx.doi.org/10.1016/S0375-9474(02)01321-0 v = 54.268 r0 = 1.196 a = 0.670 vi = 1.408 ri0 = 1.196 ai = 0.670 vsi = 8.966 rsi0 = 1.283 asi = 0.546 vso = 5.505 rso0 = 1.013 aso = 0.590 vsoi = -0.073 rsoi0 = 1.013 asoi = 0.590 rc0 = 1.265 ; anglemin=0.000000 anglemax=180.000000 anglestep=0.100000 ; $============================================ Ex=3.325(1p1/2)AK reset REACTION: 52Ti(d,p)53Ti(1/2- 3.325) ELAB= 17.000 PARAMETERSET dpsb r0target lstep=1 lmin=0 lmax=30 maxlextrap=0 asymptopia=50 PROJECTILE wavefunction av18 r0=1 a=0.5 l=0 rc0=1.2 ; TARGET JBIGA=0+ nodes=1 l=1 jp=1/2 $node is n-1 r0=1.25 a=.65 vso=6 rso0=1.10 aso=.65 rc0=1.3 ; INCOMING $An and Cai (2006) E < 183 | 12 < A < 238 | http://dx.doi.org/10.1103/PhysRevC.73.054605 v = 91.435 r0 = 1.150 a = 0.766 vi = 2.161 ri0 = 1.332 ai = 0.482 vsi = 10.310 rsi0 = 1.375 asi = 0.762 vso = 3.557 rso0 = 0.972 aso = 1.011 vsoi = 0.000 rsoi0 = 0.000 asoi = 0.000 rc0 = 1.303 ; OUTGOING $Koning and Delaroche (2009) 0.001 < E < 200 | 24 < A < 209 | Iso. Dep. | http://dx.doi.org/10.1016/S0375-9474(02)01321-0 v = 54.375 r0 = 1.196 a = 0.670 vi = 1.381 ri0 = 1.196 ai = 0.670 vsi = 8.984 rsi0 = 1.283 asi = 0.546 vso = 5.511 rso0 = 1.013 aso = 0.590 vsoi = -0.072 rsoi0 = 1.013 asoi = 0.590 rc0 = 1.265 ; anglemin=0.000000 anglemax=180.000000 anglestep=0.100000 ; $============================================ Ex=3.648(0f5/2)AK reset REACTION: 52Ti(d,p)53Ti(5/2- 3.648) ELAB= 17.000 PARAMETERSET dpsb r0target lstep=1 lmin=0 lmax=30 maxlextrap=0 asymptopia=50 PROJECTILE wavefunction av18 r0=1 a=0.5 l=0 rc0=1.2 ; TARGET JBIGA=0+ nodes=0 l=3 jp=5/2 $node is n-1 r0=1.25 a=.65 vso=6 rso0=1.10 aso=.65 rc0=1.3 ; INCOMING $An and Cai (2006) E < 183 | 12 < A < 238 | http://dx.doi.org/10.1103/PhysRevC.73.054605 v = 91.435 r0 = 1.150 a = 0.766 vi = 2.161 ri0 = 1.332 ai = 0.482 vsi = 10.310 rsi0 = 1.375 asi = 0.762 vso = 3.557 rso0 = 0.972 aso = 1.011 vsoi = 0.000 rsoi0 = 0.000 asoi = 0.000 rc0 = 1.303 ; OUTGOING $Koning and Delaroche (2009) 0.001 < E < 200 | 24 < A < 209 | Iso. Dep. | http://dx.doi.org/10.1016/S0375-9474(02)01321-0 v = 54.509 r0 = 1.196 a = 0.670 vi = 1.348 ri0 = 1.196 ai = 0.670 vsi = 9.004 rsi0 = 1.283 asi = 0.546 vso = 5.518 rso0 = 1.013 aso = 0.590 vsoi = -0.070 rsoi0 = 1.013 asoi = 0.590 rc0 = 1.265 ; anglemin=0.000000 anglemax=180.000000 anglestep=0.100000 ; $============================================ Ex=4.479(0f5/2)AK reset REACTION: 52Ti(d,p)53Ti(5/2- 4.479) ELAB= 17.000 PARAMETERSET dpsb r0target lstep=1 lmin=0 lmax=30 maxlextrap=0 asymptopia=50 PROJECTILE wavefunction av18 r0=1 a=0.5 l=0 rc0=1.2 ; TARGET JBIGA=0+ nodes=0 l=3 jp=5/2 $node is n-1 r0=1.25 a=.65 vso=6 rso0=1.10 aso=.65 rc0=1.3 ; INCOMING $An and Cai (2006) E < 183 | 12 < A < 238 | http://dx.doi.org/10.1103/PhysRevC.73.054605 v = 91.435 r0 = 1.150 a = 0.766 vi = 2.161 ri0 = 1.332 ai = 0.482 vsi = 10.310 rsi0 = 1.375 asi = 0.762 vso = 3.557 rso0 = 0.972 aso = 1.011 vsoi = 0.000 rsoi0 = 0.000 asoi = 0.000 rc0 = 1.303 ; OUTGOING $Koning and Delaroche (2009) 0.001 < E < 200 | 24 < A < 209 | Iso. Dep. | http://dx.doi.org/10.1016/S0375-9474(02)01321-0 v = 54.853 r0 = 1.196 a = 0.670 vi = 1.265 ri0 = 1.196 ai = 0.670 vsi = 9.049 rsi0 = 1.283 asi = 0.546 vso = 5.537 rso0 = 1.013 aso = 0.590 vsoi = -0.065 rsoi0 = 1.013 asoi = 0.590 rc0 = 1.265 ; anglemin=0.000000 anglemax=180.000000 anglestep=0.100000 ; $============================================ Ex=4.515(1p1/2)AK reset REACTION: 52Ti(d,p)53Ti(1/2- 4.515) ELAB= 17.000 PARAMETERSET dpsb r0target lstep=1 lmin=0 lmax=30 maxlextrap=0 asymptopia=50 PROJECTILE wavefunction av18 r0=1 a=0.5 l=0 rc0=1.2 ; TARGET JBIGA=0+ nodes=1 l=1 jp=1/2 $node is n-1 r0=1.25 a=.65 vso=6 rso0=1.10 aso=.65 rc0=1.3 ; INCOMING $An and Cai (2006) E < 183 | 12 < A < 238 | http://dx.doi.org/10.1103/PhysRevC.73.054605 v = 91.435 r0 = 1.150 a = 0.766 vi = 2.161 ri0 = 1.332 ai = 0.482 vsi = 10.310 rsi0 = 1.375 asi = 0.762 vso = 3.557 rso0 = 0.972 aso = 1.011 vsoi = 0.000 rsoi0 = 0.000 asoi = 0.000 rc0 = 1.303 ; OUTGOING $Koning and Delaroche (2009) 0.001 < E < 200 | 24 < A < 209 | Iso. Dep. | http://dx.doi.org/10.1016/S0375-9474(02)01321-0 v = 54.868 r0 = 1.196 a = 0.670 vi = 1.261 ri0 = 1.196 ai = 0.670 vsi = 9.051 rsi0 = 1.283 asi = 0.546 vso = 5.537 rso0 = 1.013 aso = 0.590 vsoi = -0.065 rsoi0 = 1.013 asoi = 0.590 rc0 = 1.265 ; anglemin=0.000000 anglemax=180.000000 anglestep=0.100000 ; end $================================== end of input