Spontaneous Symmetry breaking-weinberg's chair

In summary, Weinberg discusses the concept of spontaneous symmetry breaking in his book Quantum theory of fields-II, specifically in relation to a chair. He explains that a chair in a state with a definite l value is not stable, but a state with a definite orientation is. This means that a small perturbation can easily change the orientation of an isolated chair in vacuum. Weinberg also mentions that a definite-angular-momentum chair is a superposition of states with different orientations, and a weak external field can cause a significant change in its angular momentum spectrum. This clarifies the meaning of his statement regarding the stability of chairs.
  • #1
krishna mohan
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0
In Weinberg's book, Quantum theory of fields-II, he talks about a chair in the chapter on spontaneous symmetry breaking. He says that, for a chair, a state with a definite l value is not stable but a state with a definite orientation is.

I do not understand what he means.

An l state can be disturbed by a very small perturbation.

But, for an isolated chair in vacuum, a small perturbation is enough to change its orientation.

What is the meaning of Weinberg's statement?
 
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  • #2
If you subject a definite-orientation chair to the action of a weak field, it will change its orientation in a proportionally weak manner.

A definite-angular-momentum chair is a superposition of states with different orientations. All it takes is a tiny external field that couples differently to different orientations, to induce the variation in energies of this states on the order of several times [tex]\hbar^2/I[/tex], and the chair will cease to have definite angular-momentum. A tiny change in external fields leads to a drastic change in angular momentum spectrum.
 
  • #3
Yes..that does make it clearer..thanks!:smile:
 

1. What is spontaneous symmetry breaking?

Spontaneous symmetry breaking is a phenomenon in physics where a system that appears to be symmetric at a macroscopic level exhibits a broken symmetry at the microscopic level. This means that even though the laws of nature are symmetric, the state of the system is not.

2. What is Weinberg's chair?

Weinberg's chair is a hypothetical scenario used by physicist Steven Weinberg to explain spontaneous symmetry breaking. In this scenario, imagine a chair placed in a room with four equally strong and equally spaced legs. However, when you enter the room, you notice that the chair is tilted in one direction, breaking the symmetry of the legs.

3. How does spontaneous symmetry breaking occur?

Spontaneous symmetry breaking occurs when the potential energy of a system is minimized at a point that is not symmetric. This causes the system to choose one state over another, breaking the symmetry. In the case of Weinberg's chair, the potential energy is minimized when the chair is tilted in one direction rather than standing upright.

4. What is the significance of spontaneous symmetry breaking in physics?

Spontaneous symmetry breaking is significant in physics because it explains how particles acquire mass and how forces act between them. It also plays a crucial role in the Standard Model of particle physics and helps to explain various physical phenomena, such as magnetism and superconductivity.

5. Are there any real-life examples of spontaneous symmetry breaking?

Yes, there are many real-life examples of spontaneous symmetry breaking. For instance, magnets exhibit spontaneous symmetry breaking as they have a north and south pole, breaking the rotational symmetry. Another example is the Higgs field, which is responsible for giving particles mass through spontaneous symmetry breaking.

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