# al-zfilter-amplitude-selective-40-cycling-amoureux-p2.in # approach: 40-phase cycling the second and the third pulses and the receiver # spin-5/2 echo and antiecho amplitude optimization # versus the second-pulse duration # in three-pulse z-filtered amplitude-modulated 5Q-MAS sequence, # the first-pulse duration p1 = 4 micro seconds # the third-pulse duration p3 = 2 micro seconds spinsys { channels 27Al nuclei 27Al quadrupole 1 2 3e6 0 0 0 0 } par { spin_rate 5000 variable tsw 0.25 sw 1.0e6/tsw np 17 crystal_file rep100 gamma_angles 10 proton_frequency 800e6 start_operator I1z detect_operator I1c verbose 1101 variable rf 90000 variable rf3 9300 variable p1 4 variable p3 2 variable NB 10 variable NC 4 variable deltapB -5 variable deltapC 1 } proc pulseq {} { global par maxdt $par(tsw) pulse $par(p1) $par(rf) x store 10 reset acq $par(phREC) for {set i 1} {$i < $par(np)} {incr i} { reset prop 10 pulse [expr ($i)*$par(tsw)] $par(rf) $par(phB) pulse $par(p3) $par(rf3) $par(phC) acq [expr $par(phREC) - 90] } } proc main {} { global par set par(phB) 0 for {set jC 0} {$jC < $par(NC)} {incr jC} { set par(phC) [expr $jC*360./$par(NC)] for {set jB 0} {$jB < $par(NB)} {incr jB} { set par(phB) [expr $jB*360./$par(NB)] set par(phREC) [expr $par(deltapB)*$par(phB) + $par(deltapC)*$par(phC)] set g [fsimpson] if [info exists f] { fadd $f $g funload $g } else { set f $g } } } fsave $f $par(name).fid funload $f puts "Larmor frequency (Hz) of 27Al: " puts [resfreq 27Al $par(proton_frequency)] } # SIMP # NP=17 # SW=4000000 # TYPE=FID # DATA # -0.000237626752 4.91965235e-07 # -0.00682556387 1.43604019e-05 # -0.0434353366 9.41480551e-05 # -0.143719687 0.000325491887 # -0.323840906 0.000776247734 # -0.561272411 0.00143792248 # -0.799423867 0.00220100464 # -0.97462222 0.00288735742 # -1.04610509 0.00332760665 # -1.01161348 0.0034382178 # -0.903635117 0.00325256392 # -0.771634192 0.00289315069 # -0.659191812 0.00250590428 # -0.585427452 0.00219067251 # -0.539285862 0.00195960239 # -0.489873623 0.00174336513 # END