Register to reply

Why symmetry breaking a paradigm whilst not describing Fermi liquid?

by nonequilibrium
Tags: describing, fermi, liquid, paradigm, symmetry, whilst
Share this thread:
nonequilibrium
#1
May22-13, 04:38 AM
P: 1,417
Hi!

So I'm a bit confused: first off, does Fermi liquid theory have "order". I suppose it depends on how you define order. But in case it does, is it described by symmetry breaking?

From what I read, I think it does have order which is not described by symmetry breaking. But then I have trouble understanding why Landau symmetry breaking was regarded as a paradigm for so long if another theory by Landau, i.e. Fermi liquids, did not fit it! (yes I know the paradigm is now overthrown too by topological order but that's not relevant here)
Phys.Org News Partner Physics news on Phys.org
A new, tunable device for spintronics
Researchers study gallium to design adjustable electronic components
Gadolinium-based material that can be cooled by varying magnetic field
DrDu
#2
May23-13, 04:03 AM
Sci Advisor
P: 3,593
In liquids, like in any matter with finite density, e.g. Galilean invariance is broken which leads to the appearance of sound waves as Goldstone bosons of the broken symmetry.
If you could be more specific about which order you are talking it would be easier to determine whether it corresponds to some symmetry.
nonequilibrium
#3
May23-13, 04:19 AM
P: 1,417
Hm, is Fermi liquid not precise enough? http://en.wikipedia.org/wiki/Fermi_liquid_theory

Hypersphere
#4
May25-13, 11:25 PM
P: 182
Why symmetry breaking a paradigm whilst not describing Fermi liquid?

Quote Quote by nonequilibrium View Post
Hi!

So I'm a bit confused: first off, does Fermi liquid theory have "order". I suppose it depends on how you define order. But in case it does, is it described by symmetry breaking?

From what I read, I think it does have order which is not described by symmetry breaking. But then I have trouble understanding why Landau symmetry breaking was regarded as a paradigm for so long if another theory by Landau, i.e. Fermi liquids, did not fit it! (yes I know the paradigm is now overthrown too by topological order but that's not relevant here)
Is your question whether the Fermi liquid is a state with an order different from the Fermi gas, or whether you can have phase transitions in the Fermi liquid? If it is the latter, then yes, you can have instabilities that lead to magnetic ordering or pairing. If it is the first, I think the point is that the models are adiabatically connected, so there is no change of state or order. It's just that in one case you have a metal with very weak electron-electron interactions, and in another the interactions can be quite strong.


Register to reply

Related Discussions
Chiral symmetry breaking and approximate flavour symmetry High Energy, Nuclear, Particle Physics 8
Gauge symmetry and symmetry breaking High Energy, Nuclear, Particle Physics 2
Symmetry Breaking Quantum Physics 1
Symmetry breaking Quantum Physics 11
Symmetry breaking, what is it? Beyond the Standard Model 5