In the previous post, we saw how to simulate NMR spectra for ensembles of J-coupled spins in the liquid state. In this post, we’ll use what we’ve introduced previously to…
Welcome back! In the previous post, we laid out the building blocks for the simulation of NMR spectra for an ensemble of isolated spins. In this post, we will see…
Welcome to this first post on real NMR simulation! In this post, we will see how to simulate from scratch the NMR spectrum of a single spin in a magnetic…
Hi reader! This post is the first of hopefully a long series, where we will show how to simulate magnetic resonance experiments, starting from the basics (e.g., the liquid-state 1D…
The full scripts presented in this post are available at these links: MATLAB, Python In the previous post we saw how the time-dependent Schrödinger equation allows us to calculate how…
This post presents the last of the six postulates of quantum mechanics. Up to now, we have seen how a quantum mechanical state is defined, what is the outcomes of…
Collapse of the wave function. Sounds intense, in’t? What does it mean? That’s the topic of this post. When we discussed the second and third postulates of quantum mechanics, we…
The full scripts presented in this post are available at these links: MATLAB, Python In the previous post, we saw that for any state , measuring the observable can only…
The full scripts presented in this post are available at these links: MATLAB, Python With the first postulate of quantum mechanics, we learnt that everything there is to know about…
The full scripts presented in this post are available at these links: MATLAB, Python To develop the framework of quantum mechanics in the early 20th century, pioneer scientists had to…
