Left/right handed electrons - what's the difference?

In summary, the difference between left and right handed electrons refers to the chirality or spin and momentum directions of an electron. This distinction is made because these two chiralities refer to two fundamentally different components of the electron wave function. In QFT, a mass mixes these components, and therefore electrons do not have mass as an elementary particle. The weak nuclear force only interacts with the left-handed component of an electron, while the electromagnetic force interacts with both. There is no way to distinguish between left and right-handed electrons in a classical sense, as the concept of a pure left-handed electron does not exist as a free particle.
  • #1
Rhizomorph
18
0
Can someone explain to me in layman's terms what the difference between a left and right handed electron is. Have we encountered right handed electrons? Do they still have the same mass, charge, lifetime, etc? So what is the difference, and is this difference theoretical or has it been observed? In other words, is there any real reason to draw a distinction between the two?

Rhizomorph.
 
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  • #2
Left and right handed refers to the chirality of an electron. Right handed chirality means that the spin and momentum of the electron point in the same direction. Left handed means opposite direction of spin and momentum. This distinction is made because these two chiralities refer to two fundamentally different components of the elektron wave function. In QFT a mass mixes these two components and that is why elektrons doe not have mass as an elementary particle. Mass is generated by the Higgs-mechanism and the breakdown of symmetry of the vacuum-states.
 
  • #3
"these two chiralities refer to two fundamentally different components of the elektron wave function"

Then I guess my question is how does that manifests itself in any meaningfull way? If, theoretically, you had 2 electrons in a box, one left-handed, one right-handed, is there any way to distinguish between the two?
 
  • #4
No massive free particles have definite heliticity (it is not conserved during free particle propagation), so there is no such thing as a left-handed electron. However, using projection operators, we can split the electron wavefunction into left-handed and right-handed components. (They need not be equal in magnitude, but a pure left-handed electron does not satisfy the Dirac equation and so does not exist as a free particle). Then the weak nuclear force couples only to the left-handed component of the electron, while the EM force interacts with both.
 

1. What does it mean for an electron to be left or right-handed?

Left and right-handedness in electrons refers to their spin orientation. This is a quantum mechanical property and does not have a direct physical analog, but it can be imagined as the direction in which the electron is spinning on its axis.

2. How do left and right-handed electrons differ from each other?

The main difference between left and right-handed electrons is their spin direction. Left-handed electrons have a spin direction that is opposite to that of right-handed electrons. This difference in spin can have important implications in the behavior and interactions of electrons in different contexts.

3. Can left and right-handed electrons interact with each other?

Yes, left and right-handed electrons can interact with each other through various processes such as scattering and exchange interactions. However, the strength and nature of these interactions may differ depending on the specific context and the properties of the interacting electrons.

4. Are left and right-handed electrons equally common in nature?

No, left and right-handed electrons are not equally common in nature. In fact, in most physical systems, there is a slight excess of left-handed electrons compared to right-handed electrons. This is known as the parity violation in nature and is an active area of research in particle physics.

5. How can we determine the handedness of an electron?

The handedness of an electron can be determined through various experimental methods such as spectroscopy and scattering experiments. These techniques can reveal the spin orientation of the electron and thus determine if it is left or right-handed. Additionally, theoretical models and calculations can also predict the handedness of electrons in certain systems.

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