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Stern-Gerlach experiment
fine structure split in energy levels
anomalous Zeeman effect
of a more statistical nature, but therefore also macroscopic and more dramatically observable:
- ferromagnetism
- Bose-Einstein statistics vs Fermi-Dirac statistics. A notable example is the difference in superfluid transition temperature between superfluid helium-3 and superfluid helium-4.

Stern-Gerlach experiment by

Ciro Santilli 37 Updated 2025-07-16

Originally done with (neutral) silver atoms in 1921, but even clearer theoretically was the hydrogen reproduction in 1927 by T. E. Phipps and J. B. Taylor.

The hydrogen experiment was apparently harder to do and the result is less visible, TODO why: physics.stackexchange.com/questions/33021/why-silver-atoms-were-used-in-stern-gerlach-experiment

The Stern-Gerlach Experiment by Educational Services, Inc (1967)

Source. Featuring MIT Professor Jerrold R. Zacharias. Amazing experimental setup demonstration, he takes apart much of the experiment to show what's going on.

Spintronics by

Ciro Santilli 37 Updated 2025-07-16

Introduction to Spintronics by Aurélien Manchon (2020)

Source.

Video 2.

The Spin on Electronics by Stuart Parkin

. Source. 2013.

Tunnel magnetoresistance by

Ciro Santilli 37 Updated 2025-07-16

What is spintronics and how is it useful? by SciToons (2019)

Source. Gives a good 1 minute explanation of tunnel magnetoresistance.

Giant magnetoresistance by

Ciro Santilli 37 Updated 2025-07-16

Introduction to Spintronics by Aurélien Manchon (2020) giant magnetoresistance section

. Source.

Describes how giant magnetoresistance was used in magnetoresistive disk heads in the 90's providing a huge improvement in disk storage density over the pre-existing inductive sensors

More comments at: Video "Introduction to Spintronics by Aurélien Manchon (2020)".

Spin-transfer torque by

Ciro Santilli 37 Updated 2025-07-16

Introduction to Spintronics by Aurélien Manchon (2020) spin-transfer torque section

. Source.

Describes how how spin-transfer torque was used in magnetoresistive RAM

More comments at: Video "Introduction to Spintronics by Aurélien Manchon (2020)".

Spin 0 by

Ciro Santilli 37 Updated 2025-07-16

physics.stackexchange.com/questions/31119/what-does-spin-0-mean-exactly

Leads to the Klein-Gordon equation.

Spin 1 by

Ciro Santilli 37 Updated 2025-07-16

Leads to the Proca equation.

Proca equation by

Ciro Santilli 37 Updated 2025-07-16

Spin 2 by

Ciro Santilli 37 Updated 2025-07-16

Theorized for the graviton.

Wayback Machine rate limit by

Ciro Santilli 37 Updated 2025-07-16

archive.org/details/toomanyrequests_20191110 says 15 archives / minute, but apparently aslo 15 retrievals per minutes on Wikipedia, after which 5 min blacklist. After that, you start getting some 429s, and after that, server refuses to connect at al.

CDX: no limits apparently, they might just throttle you? Made 10k requets on bash loop and was going fine. But not that if you get blacklisted by create/fetch requests blacklist, server fails to connect here as well.

Position representation by

Ciro Santilli 37 Updated 2025-07-16

A way to write the wavefunction

ψ (x)

such that the position operator is:

x

(1)

i.e., a function that takes the wavefunction as input, and outputs another function:

x ψ (x)

(2)

If you believe that mathematicians took care of continuous spectrum for us and that everything just works, the most concrete and direct thing that this representation tells us is that:

the probability of finding a particle between $x_{0}$ and $x_{1}$ at time $t$

equals:

\int_{x_{0}}^{x_{1}} x ψ x, t d x

(3)

Why is the spin of the electron half? by

Ciro Santilli 37 Updated 2025-07-16

physics.stackexchange.com/questions/266359/when-we-say-electron-spin-is-1-2-what-exactly-does-it-mean-1-2-of-what

More interestingly, how is that implied by the Stern-Gerlach experiment?

physics.stackexchange.com/questions/266359/when-we-say-electron-spin-is-1-2-what-exactly-does-it-mean-1-2-of-what/266371#266371 suggests that half could either mean:

at limit of large l for the Schrödinger equation solution for the hydrogen atom the difference between each angular momentum is twice that of the eletron's spin. Not very satisfactory.
it comes directly out of the Dirac equation. This is satisfactory. :-)

Slater determinant by

Ciro Santilli 37 Updated 2025-07-16

Fermions, bosons and anyons by

Ciro Santilli 37 Updated 2025-07-16

Boson by

Ciro Santilli 37 Updated 2025-07-16

Anyon by

Ciro Santilli 37 Updated 2025-07-16

The name actually comes from "any". Amazing.

Can only exist in 2D surfaces, not 3D, where fermions and bosons are the only options.

All known anyons are quasiparticles.

Abelian an non abelian anyons by

Ciro Santilli 37 Updated 2025-07-16

Abelian anyon by

Ciro Santilli 37 Updated 2025-07-16

On particle exchange:

ψ = e^{θ i} ψ

(1)

so it is a generalization of bosons and fermions which have

θ = 0

and

θ = π

respectively.

Key physical experiment: fractional quantum Hall effect.

Spin-statistics theorem by

Ciro Santilli 37 Updated 2025-07-16

Video "The Biggest Ideas in the Universe | 17. Matter by Sean Carroll (2020)" at youtu.be/dQWn9NzvX4s?t=3707 says that no one has ever been able to come up with an intuitive reason for the proof.

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