报告时间:2024年10月10日上午10:00 (10:00, oct10, 2024)
报告地点:物质楼c404会议室(room c404, material science building)
报告题目:flip-angle selective pulses and applications in nmr spectroscopy
报告人:prof. riqiang fu national high magnetic field laboratory, florida state university
报告摘要:
frequency selective pulses, generally achieved by shaped pulses such as gaussian and sinc waveform, have been widely used to select resonances within a specific bandwidth in nmr spectra. in contrast, flip-angle selective pulses have yet to be fully explored. it is well known in nuclear magnetic resonance (nmr) spectroscopy that a radio-frequency (rf) pulse generates the observable signals that follow a sine wave with respect to its pulse length p, i.e.,sabs=sin(q), with the assumption that 1 is much larger than any internal spin interactions. here, the flip-angle is defined as q=n1tp, where 1 is the b1 field generated by the rf pulse. in 1983, bendall and gordon [1] introduced multiple spin-echo sequences q-[t-2q-t]n-acq to create the flip-angle selective pulses with an excitation profile of sabs=sin2n 1(q ) , the so-called depth profiling, in order to improve spatial discrimination (i.e., detecting signals in a given in-depth position) in the applications with surface coils.
in this presentation, flip-angle selective pulses are designed using a train of pulses with the same pulse length but different phases. these profiles have a minimal scaling to the signals when the flip-angle is ~ 90° but have a large scaling when the flip-angle is small. they are analogous to bendall and gordon’s depth profiling that can only be applicable for spin-1/2 nuclei, except that these newly designed flip-angle selective pulses can be also used on quadrupolar nuclei (such as 17o, 25mg, and 23na). applications include: 1) suppressing the background signals and eliminating rf acoustic ringing effects [2]; 2) selectively observing signals based on different quadrupolar couplings [2-3]; 3) differentiating highly overlapped signals that have different relaxation properties. recent results will be presented.
references
[1] m. r. bendall; r. e. gordon, depth and refocusing pulses designed for multiple nmr with surface coils. j. magn. reson. 53 (1983) 365-385.
[2] f. f. wang; s. k. ramakrishna; p. c. sun; r. fu, triple-pulse excitation: an efficient way for suppressing background signals and eliminating radio-frequency acoustic ringing in direct polarization nmr experiments. j. magn. reson. 332 (2021) 107067.
[3] r. zhang; t. a. cross; x. peng; r. fu, surprising rigidity of functionally important water molecules buried in the lipid headgroup region. j. am. chem. soc. 144 (2022) 7881-7888.
