epi3(=epirri5.39k)
This version can handle 3 line nav echo data
default epirriflag: 1 1 2 0 1 -1
epi3<RET> (default)
epi3(0)<RET> (DC correction is off)
epi3(2)<RET> (DC correction shot by shot)
chcoil
chcoil<RET> switch receiver coil setting between ('array','yyyy') and ('volume','ynnn')
chcoil(n)<RET> switch receiver coil setting to "array mode" with the number of channels.
dst2
dst2(n)<RET>
after acquiring multiple spectrum, it'll find the first peak
pssshift
pssshift(x)<RET> (Shift all pss values by x cm)
rfoff
rfoff<RET> (tpwr1, tpwr2 and satpwr off)
rfoff<RET> (tpwr1, tpwr2, tpwri and satpwr off)
epi(=epirril4b)
epi<RET> (default + fermi filtering is off)
epi(0)<RET> (DC correction is off)
epi2(=epirri5)
epi2<RET> (default)
epi2(0)<RET> (DC correction is off)
epi2(2)<RET> (DC correction shot by shot)
tranplan
transfer slice information
tranplan(n)<RET>
n: experimental number to transfer
pss, slice orientation, thickness, euler angles, pro, resto, rfcoil..
fidlog
*This is not vnmr macro but unix command
Check the start time and the data size for the experiments(fids)
fftw3rd
flashc, tabc,
fft along 2nd phase encode axis for 3D data
fftw3rd<RET> :butterworth order is 8
fftw3rd(n)<RET> :butterworth order is n (if n=0, no filter is applied)
dmis
dmi+sliceplan
jx
jexp and tof,rfcoil setting transfer
When you have pw and tpwr for 90 deg in the current exp,
jx(2)
When you want to set rfcoil manually,
jx(2,'butterfly')
When you don't want to change rfcoil setting,
jx(2,'')
prep
automatically select appropriate prep for your exp depend on 'seqfil'
thk=lpe2*10/1.1 is done automatically for 3D FLASH
rot
slice rotation
rot(2) : 2 degree rotation counterclockwise
rot : 90 degree rotation
sshift
slice shift
sshift(2)
rfcal
make 90 degree pulse setting
simplified version of pulsecal
dcntr
show your cntr setting
dmf
show multiple k-space data like dmi
dmif
show multiple image-space and k-space data together