Particle Spin - how to cause change to direction

In summary: The pairing of electrons in orbitals, which is apparent from the structure of the periodic table of elements and accounts for pretty much all of modern chemistry is one example. The Pauli exclusion principle, without which the universe would be unimaginably different, is another. Conservation of angular momentum in reactions involving neutral particles is a bit less exciting than these but clearly shows that there can be spin without significant magnetic moment.
  • #1
len
6
0
Everywhere I read about the angular momentum / spin of electrons and how a 1/2 spin particle has a unique characteristic that you need to turn it 720 degrees in order to get it turned back to where it was before you started turning it.

How exactly do people "turn" an electron in this fashion? I can't find anything anywhere that explains 'how' we are able to change the direction of the spin like that.

Thanks
 
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  • #3
There are various ways to create a controlled spin flip, depending on the system.

The first way is just to wack your system with a giant magnetic field

In ferromagnetic metals, you can use microwaves

In direct bandgap semiconductors you can use microwaves or circularly polarized light

For nuclear spins, you use radio waves.

In oxides materials, there may be more exciting ways
 
  • #4
rigetFrog said:
There are various ways to create a controlled spin flip, depending on the system.

The first way is just to wack your system with a giant magnetic field

In ferromagnetic metals, you can use microwaves

In direct bandgap semiconductors you can use microwaves or circularly polarized light

For nuclear spins, you use radio waves.

In oxides materials, there may be more exciting ways

Are all those interactions essentially via magnetic fields? Is there any practical difference between spin and magnetic dipole moment?
 
  • #5
Jabbu said:
Are all those interactions essentially via magnetic fields
Yes, but...
Is there any practical difference between spin and magnetic dipole moment?

Yes. There are many more spin-related phenomena that have nothing to do with magnetic dipole moments.
 
  • #6
Nugatory said:
Yes. There are many more spin-related phenomena that have nothing to do with magnetic dipole moments.

Thanks. What are some of the other spin-related phenomena? It's hard to find anything other than information about the magnetic dipole moment.

I'm also wondering how angular momentum is actually detected or is it only surmised from observing the magnetic dipole?
 
  • #7
len said:
Thanks. What are some of the other spin-related phenomena? It's hard to find anything other than information about the magnetic dipole moment.
The pairing of electrons in orbitals, which is apparent from the structure of the periodic table of elements and accounts for pretty much all of modern chemistry is one example. The Pauli exclusion principle, without which the universe would be unimaginably different, is another.

Conservation of angular momentum in reactions involving neutral particles is a bit less exciting than these but clearly shows that there can be spin without significant magnetic moment.
 

1. What is particle spin?

Particle spin refers to the intrinsic angular momentum of subatomic particles, such as electrons, protons, and neutrons. It is a quantum mechanical property that determines how a particle behaves in a magnetic field.

2. How does particle spin affect direction?

Particle spin affects direction by determining the orientation of a particle's magnetic moment, which is the direction of the particle's spin angular momentum. This can cause the particle to behave differently when exposed to a magnetic field, such as changing its direction of motion.

3. Can we control particle spin?

Yes, we can control particle spin through various techniques, such as applying magnetic fields or using specialized equipment like particle accelerators. By manipulating the direction of the magnetic field, we can influence the direction of a particle's spin and cause it to change its direction of motion.

4. How is particle spin used in technology?

Particle spin has many practical applications in technology, including in magnetic storage devices like hard drives and in medical imaging techniques like magnetic resonance imaging (MRI). It is also crucial for understanding the behavior of subatomic particles in particle accelerators, which are used for research in nuclear and particle physics.

5. What are the implications of particle spin for quantum computing?

Particle spin plays a crucial role in quantum computing, as it is one of the fundamental properties that allow quantum bits (qubits) to store and process information. By manipulating the spin of individual particles, scientists are exploring ways to create more powerful and efficient quantum computers that could solve complex problems beyond the capabilities of classical computers.

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