# Confusions on symmetry breaking and classical field theory

I am just reading some material about symmetry breaking and so-called effective action/potential

Consider a lagrangian $$\begin{equation*} \mathcal{L}=\frac{1}{2}(\partial \phi)^2-\frac{1}{2}m^2\phi^2-\frac{\lambda}{4!}\phi^4=\frac{1}{2}(\partial \phi)^2-V(\phi) \end{equation*}$$ Now it is known for $$m^2>0$$, symmetry is unbroken, $$m^2<0$$, symmetry is broken. But people usually spend pages on discussing the case $$m^2=0$$.

My first confusion is: for $$m^2=0$$, $$V(\phi)=\frac{\lambda}{4!}\phi^4$$ attains its minimum at just one point $$\phi=0$$, and the symmetry seems unbroken. Why is it necessary for us to consider $$m^2=0$$?

My second confusion is:

In the P&S's book "An Intro to QFT", 11.1, it is shown $$V(\phi)$$ for $$m^2<0$$ has two minima $$\pm \phi_0$$, called expectation value of $$\phi$$. Why is it called "expectation value"? Is it an average of something? In field theory, what is the physical motivation of minimizing a potential $$V(\phi)$$?

• Just a heads up: as the rule of the site says, you should make only one question per post. In any case, could you bring up some references on the $m^2=0$ case? May 31, 2020 at 14:54
• The vacuum expectation value (vev) is the expected value of the field in the vacuum $\langle0|\phi|0\rangle$. In the unbroken phase, the vev will be zero. The fact that it is non-zero is exactly what is meant by a broken symmetry. May 31, 2020 at 15:06
• Near duplicate, as well as. May 31, 2020 at 15:18
• If $m^2=0$, you're right that there is no spontaneous symmetry breaking at the classical level. But when you take quantum corrections into account and construct the effective action, you'll see that symmetry can be broken. You can see the Chapter "Effective Potential" in A. Zee's QFT book.
– SRS
May 31, 2020 at 15:48
• Yes. You're right. In general, $\langle 0|\hat{\phi}|0\rangle=v+(\hbar\text{dependent quantum corrections})$. $v$ can be obtained classically by minimizing the classical potential.
– SRS
Jun 1, 2020 at 14:24