# 1 "/nmrdata/nmrlib/pp/BTROSY"
;BB_2D_BTROSY
;avance-version (12/01/11)
;Best-TROSY
;
;(E. Lescop, P. Schanda & B. Brutscher,
;   J. Magn. Reson.  187 163-169 (2007))
;(T. Schulte-Herbrueggen & O.W. Sorensen, J. Magn. Reson. 144, 
;   123 - 128 (2000))
;
;$CLASS=IBS
;$DIM=2D
;$TYPE=
;$SUBTYPE=
;$COMMENT=


prosol relations=<IBS>
# 1 "/opt/topspin3.5pl7/exp/stan/nmr/lists/pp/Avance.incl" 1
;Avance3.incl
;   for AV III
;
;avance-version (13/06/17)
;
;$CLASS=HighRes Incl
;$COMMENT=


# 169 "/opt/topspin3.5pl7/exp/stan/nmr/lists/pp/Avance.incl"
;$Id: Avance3.incl,v 1.10.2.2 2013/08/30 09:43:33 ber Exp $
# 20 "/nmrdata/nmrlib/pp/BTROSY" 2

# 1 "/opt/topspin3.5pl7/exp/stan/nmr/lists/pp/Grad.incl" 1
;Grad2.incl  -  include file for Gradient Spectroscopy
;   for TCU3
;
;avance-version (07/01/17)
;
;$CLASS=HighRes Incl
;$COMMENT=

# 27 "/opt/topspin3.5pl7/exp/stan/nmr/lists/pp/Grad.incl"
define list<gradient> EA=<EA>


# 31 "/opt/topspin3.5pl7/exp/stan/nmr/lists/pp/Grad.incl"
;$Id: Grad2.incl,v 1.14 2012/01/31 17:49:21 ber Exp $
# 21 "/nmrdata/nmrlib/pp/BTROSY" 2

# 1 "/opt/topspin3.5pl7/exp/stan/nmr/lists/pp/Delay.incl" 1
;Delay.incl  -  include file for commonly used delays
;
;version (13/08/07)
;
;$CLASS=HighRes Incl
;$COMMENT=

# 9 "/opt/topspin3.5pl7/exp/stan/nmr/lists/pp/Delay.incl"
;general delays

define delay DELTA
define delay DELTA1
define delay DELTA2
define delay DELTA3
define delay DELTA4
define delay DELTA5
define delay DELTA6
define delay DELTA7
define delay DELTA8
define delay DELTA9
define delay DELTA10
define delay DELTA11
define delay DELTA12
define delay DELTA13
define delay DELTA14
define delay DELTA15
define delay DELTA16

define delay TAU
define delay TAU1
define delay TAU2
define delay TAU3
define delay TAU4
define delay TAU5
define delay TAU6
define delay TAU7
define delay TAU8
define delay TAU9
# 40 "/opt/topspin3.5pl7/exp/stan/nmr/lists/pp/Delay.incl"
define delay INCR1
define delay INCR2
define delay INCR3
define delay INCR4
define delay INCR5
define delay INCR6


;delays for centering pulses
# 50 "/opt/topspin3.5pl7/exp/stan/nmr/lists/pp/Delay.incl"
define delay CEN_HN1
define delay CEN_HN2
define delay CEN_HN3
define delay CEN_HC1
define delay CEN_HC2
define delay CEN_HC3
define delay CEN_HC4
define delay CEN_HP1
define delay CEN_HP2
define delay CEN_CN1
define delay CEN_CN2
define delay CEN_CN3
define delay CEN_CN4
define delay CEN_CP1
define delay CEN_CP2


;loop counters
# 69 "/opt/topspin3.5pl7/exp/stan/nmr/lists/pp/Delay.incl"
define loopcounter COUNTER
define loopcounter SCALEF
define loopcounter FACTOR1
define loopcounter FACTOR2
define loopcounter FACTOR3
define loopcounter FACTOR4
define loopcounter FACTOR5
define loopcounter FACTOR6


# 80 "/opt/topspin3.5pl7/exp/stan/nmr/lists/pp/Delay.incl"
;$Id: Delay.incl,v 1.14.2.1 2013/08/30 09:43:33 ber Exp $
# 22 "/nmrdata/nmrlib/pp/BTROSY" 2


# 26 "/nmrdata/nmrlib/pp/BTROSY"
define list<gradient> EA3 = { 1.0000 0.8750 }
define list<gradient> EA5 = { 0.6667 1.0000 }
define list<gradient> EA7 = { 1.0000 0.6595 }


# 35 "/nmrdata/nmrlib/pp/BTROSY"
 

"p41=7.2/(cnst2*bf1/1000000)" 
"spw25=plw1*(pow((p1*1.01/p41)/0.125,2))" 
"spoff25=bf1*(cnst1/1000000)-o1"  
"spoal25=0.5"

# 44 "/nmrdata/nmrlib/pp/BTROSY"
"p42=4.875/(cnst2*bf1/1000000)" 
"spw26=plw1*(pow((p1*1.97/p42)/0.0798,2))"   
"spoff26=bf1*(cnst1/1000000)-o1" 
"spoal26=0.5"


# 51 "/nmrdata/nmrlib/pp/BTROSY"
"p43=4.6/(cnst2*bf1/1000000)" 
"spw28=plw1*(pow((p1*1.04/p43)/0.06103,2))"   
"spw29=plw1*(pow((p1*1.04/p43)/0.06103,2))"   
"spoff28=bf1*(cnst1/1000000)-o1" 
"spoal28=0"
"spoff29=bf1*(cnst1/1000000)-o1" 
"spoal29=1.0"

"p16=1000u"
"p17=300u"

# 66 "/nmrdata/nmrlib/pp/BTROSY"
"p8=500"

"if ( bf2 < 165 ) {spw13=plw2*(pow((p3/25.5832),2)); } else{spw13=plw2*(pow((p3/22.1557),2));} "

# 75 "/nmrdata/nmrlib/pp/BTROSY"
"p50 =500u"    
"spoff50=0.0" 
"spw50=plw3*(pow((p21*8/p50),2))"   

"p51=4.875/(40*bf3/1000000)" 
"spw51=plw3*(pow((p21*1.97/p51)/0.0798,2))"   
"spoff51=0.0"                
"spoal51=0.5"

# 89 "/nmrdata/nmrlib/pp/BTROSY"
"d11=30m"

"d25=2.6m"
"d26=2.7m"
"d27=2.5m"  

"DELTA1=d25-p41*0.5-p42*0.5"
"DELTA2=d27-p17-d16-p42*0.5-p43*0.5"
"DELTA3=d26-p17-d16-p42*0.5"
# 100 "/nmrdata/nmrlib/pp/BTROSY"
"DELTA=d0*2+p8+p21*4/3.1416"


# 109 "/nmrdata/nmrlib/pp/BTROSY"
"d0=3u"
"in0=inf1/2"


# 114 "/nmrdata/nmrlib/pp/BTROSY"
"acqt0=0"
baseopt_echo


# 1 "mc_line 118 file /nmrdata/nmrlib/pp/BTROSY exp. def. part of mc cmd. before ze"
; dimension 2D; AQ_mode  (F1) Echo-Antiecho
define delay MCWRK
define delay MCREST
define delay d0orig
"d0orig=d0"
define loopcounter t1loop
"t1loop=0"
define loopcounter ph1loop
"ph1loop=0"
define loopcounter ST1CNT
"ST1CNT = td1 / 2"
"MCREST = d11 - d11"
"MCWRK = 0.043478*d11"

    dccorr
# 118 "/nmrdata/nmrlib/pp/BTROSY"
1 d11 ze
# 1 "mc_line 118 file /nmrdata/nmrlib/pp/BTROSY exp. def. of mc cmd. after ze"
LBLAV, MCWRK
      "d0=d0orig + t1loop * in0 "
      "phval6 = (ph1loop % 2) * 180"
      MCWRK ip6 + phval6
      "phval7 = (ph1loop % 2) * 180"
      MCWRK ip7 + phval7
      "phval5 = (t1loop * 180)%360"
      MCWRK ip5 + phval5
      "phval31 = (t1loop * 180)%360"
      MCWRK ip31 + phval31
      MCWRK
      "phval0 = ph1loop * 1"
      MCWRK setgrad EA3
      MCWRK
      "phval0 = ph1loop * 1"
      MCWRK setgrad EA5
      MCWRK
      "phval0 = ph1loop * 1"
      MCWRK setgrad EA7
# 119 "/nmrdata/nmrlib/pp/BTROSY"
# 1 "mc_line 119 file /nmrdata/nmrlib/pp/BTROSY exp. start label for mc cmd."
2 MCWRK  * 11
LBLF1, MCWRK  * 11
LBLST1, MCWRK
  MCREST
# 120 "/nmrdata/nmrlib/pp/BTROSY"
3 5u pl1:f1 pl2:f2 pl3:f3
  (p50:sp50 ph8):f3
  d1
  50u setnmr3|0 setnmr0|34|32|33 ctrlgrad 0
# 127 "/nmrdata/nmrlib/pp/BTROSY"
  (p41:sp25 ph3)    
 
  DELTA1
  (center (p42:sp26 ph2) (p50:sp50 ph1):f3 )

  DELTA1  pl3:f3
  (p41:sp25 ph11):f1   

  p16:gp2
  d16
# 140 "/nmrdata/nmrlib/pp/BTROSY"
  (p21 ph5):f3
  d0


  (p8:sp13 ph1):f2
# 148 "/nmrdata/nmrlib/pp/BTROSY"
  d0
  (p50:sp50 ph1):f3
  DELTA

  p16:gp3*EA3
  d16
;  30u ;  1st order phase compensation

# 159 "/nmrdata/nmrlib/pp/BTROSY"
  (p43:sp29 ph6)   
  p17:gp4
  d16
  DELTA2
  (center (p42:sp26 ph2) (p50:sp50 ph2):f3 )
  DELTA2  pl3:f3
  p17:gp4
  d16
  (p43:sp28 ph1)    


  p16:gp5*EA5
  d16
;  30u ;  1st order phase compensation
# 175 "/nmrdata/nmrlib/pp/BTROSY"
  (p21 ph1):f3
  p17:gp6
  d16
  DELTA3
  (center (p42:sp26 ph2) (p51:sp51 ph2):f3 )
  DELTA3 pl3:f3
  p17:gp6
  d16 
  (p21 ph7):f3


  p16:gp7*EA7
  d16  setnmr3^0 setnmr0^34^32^33 ctrlgrad 7
# 191 "/nmrdata/nmrlib/pp/BTROSY"
  go=2 ph31
# 1 "mc_line 192 file /nmrdata/nmrlib/pp/BTROSY exp. mc cmd. in line"
  MCWRK  wr #0 if #0 zd 

  "ph1loop+=1"
      "d0=d0orig + t1loop * in0 "
      "phval6 = (ph1loop % 2) * 180"
      MCWRK ip6 + phval6
      "phval7 = (ph1loop % 2) * 180"
      MCWRK ip7 + phval7
      "phval5 = (t1loop * 180)%360"
      MCWRK ip5 + phval5
      "phval31 = (t1loop * 180)%360"
      MCWRK ip31 + phval31
      MCWRK
      "phval0 = ph1loop * 1"
      MCWRK setgrad EA3
      MCWRK
      "phval0 = ph1loop * 1"
      MCWRK setgrad EA5
      MCWRK
      "phval0 = ph1loop * 1"
      MCWRK setgrad EA7
  lo to LBLF1 times 2
  MCWRK 

  "t1loop+=1"
      "d0=d0orig + t1loop * in0 "
      "phval6 = (ph1loop % 2) * 180"
      MCWRK ip6 + phval6
      "phval7 = (ph1loop % 2) * 180"
      MCWRK ip7 + phval7
      "phval5 = (t1loop * 180)%360"
      MCWRK ip5 + phval5
      "phval31 = (t1loop * 180)%360"
      MCWRK ip31 + phval31
      MCWRK
      "phval0 = ph1loop * 1"
      MCWRK setgrad EA3
      MCWRK
      "phval0 = ph1loop * 1"
      MCWRK setgrad EA5
      MCWRK
      "phval0 = ph1loop * 1"
      MCWRK setgrad EA7
  lo to LBLST1 times ST1CNT
  MCWRK 
  "t1loop=0"
  "ph1loop=0"
  MCWRK rf #0
  lo to LBLAV times tdav
# 194 "/nmrdata/nmrlib/pp/BTROSY"
exit


ph1=0
ph11=1
ph2=3 
ph3=2
ph4=3
ph5=0 2
ph6=1
ph7=1
ph8=0
ph31=0 2
# 209 "/nmrdata/nmrlib/pp/BTROSY"
;pl0 : 0W
;pl1 : f1 channel - power level for pulse (default)
;pl3 : f3 channel - power level for pulse (default)
;sp13: f2 channel - shaped pulse 180 degree (Ca and C=O, adiabatic)
;sp26: Reburp.1000
;sp25: Pc9_4_90.1000
;sp28: Eburp2.1000
;sp29: Eburp2tr.1000
;p16:  gradient pulse                         [1 msec]
;p29:  gradient pulse
;p21: f3 channel -  90 degree high power pulse
;p22: f3 channel - 180 degree high power pulse
;p8 : f2 channel - 180 degree shaped pulse for inversion (adiabatic)
;p29: gradient pulse 3                                 [300 usec]
;p41: PC9
;p42: REBURP
;p43: EBURP
;d0 : incremented delay (F1)                           [3 usec]
;d1 : relaxation delay; 1-5 * T1
;d11: delay for disk I/O                               [30 msec]
;d16: delay for homospoil/gradient recovery
;d25: 1/(4J(NH)                                     
;d26: 1/(4J(NH)     
;d27: 1/(4J(NH)                            
;cnst1: H(N) excitation frequency (in ppm)
;cnst2: H(N) excitation band width (in ppm)
;cnst26: Call chemical shift (offset, in ppm)          [101 ppm]
;cnst41: Power change for PC9 pulse (dB)
;cnst42: Power change for REBURP pulse (dB)
;cnst43: Power change for EBURP2 pulse (dB)
;inf1: 1/SW(N) = 2 * DW(N)
;in0: 1/(2 * SW(N)) = DW(N)
;nd0: 2
;ns: 2 * n
;ds: >= 16
;td1: number of experiments in F1
;FnMODE: echo-antiecho in F1


;for z-only gradients:
;gpz1: 2%
;gpz2: 21%
;gpz3: -80%
;gpz4: 5%
;gpz5: 30%
;gpz6: 45%
;gpz7: 30.13%
# 257 "/nmrdata/nmrlib/pp/BTROSY"
;use gradient files:   
;gpnam1: SMSQ10.32
;gpnam2: SMSQ10.50
;gpnam3: SMSQ10.50
;gpnam4: SMSQ10.32
;gpnam5: SMSQ10.50
;gpnam6: SMSQ10.32
;gpnam7: SMSQ10.50


# 268 "/nmrdata/nmrlib/pp/BTROSY"
;Processing

;PHC0(F1): 45.0

