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Rewrite the hamiltonian of the dipolar interaction in polar coordinate. Expand the operator to increasing-lowering basis
Solid Echo
- Write out the Solid Echo sequence.
- Show that if add the 3rd spin there will be no refocusing
JB Echo
- Write out the JB echo sequence.
- Show that the magnitude of the dipolar hamiltonian at the end is 1/2 of the magnitization
- Show that if use arbitrary pulse instead of pi/4 pulse, it will give a dipolar state, but not maximum
Lee-Goldberg
Get the hamiltonian of the system by doing averaging transformation
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Dyson time velocity operation
Wiki Markup
It is equal to exp(-iAt)T exp(-i integrate\[B'(t)\]dt) ; B'=exp(iAt)B exp(-iAt), T is Dyson time velocity operator.
WAHUHA Sequence
- Show that H~(1) = 0 => if symmetric sequence H~(odd) = 0
- Show that H~(0)finite pulse != 0, but equal to w1/wD
MREV-8
Show that H~D(0)finite pulse width = 0
BR24, C24
- Show that anti-cyclic H~D(0) = 0
- Show that this is a dipolar decouple pi pulse