@michael-tayler
- Scientist in Barcelona, Spain - Develops atomic and nuclear spin sensors for #NMR #MRI #MEG and other #QuantumTechnology - Please also follow @nmrduino.bsky.social Migrating from X. Will post on both apps for a while.
4. Hardware
Whether using frugal off-the-shelf parts, or involving exotic detection methods, e.g., radioactivity, there should be something of interest to everyone.
3. Pulse sequences
High-field methods can be used in alternative ways. For example composite pulses, usually employed to compensate errors, can be used to exclude fields from interacting with certain spins.
2. Applications in Chemistry and Physics
Throughout its history, ZULF NMR has been used to study magnetically inhomogeneous materials. You can read about latest applications from batteries, to surface science, to chirality.
1. Theory
Given the right frame of reference, ZULF NMR is simple to understand.
Here's a 3D representation of zero-quantum NMR signals evolving in time across magnetic fields from "zero" to "high".
ππZULF nuclear magnetic resonanceππ
Review article, Progress in NMR Spectroscopy, in press (2025) doi.org/10.1016/j.pn...
Dedicated to Prof. Alexander Pines (1945β2024), pioneer of zero-field NMR and extraordinary mentor
See below for a few highlights. #NMRchat
Great article, but...
In this case, "levitating" is the better word. NMR of "floating" samples is about 70 years old (who is going to tell them about Magic-Angle-Spinning NMR?) π
physics.aps.org/articles/v17...
#NMRchat
Post-doctoral position in applications of magnetometry in nuclear magnetic resonance, the Atomic Quantum Optics group led by Prof. Morgan Mitchell @ICFOnians ICFO - The Institute of Photonic Sciences, Barcelona, Spain jobs.icfo.eu?detail=943 #NMRjobs #NMRchat #NMR π§²