Heisenberg Picture Formalism: Rewriting Operators in Covariance

Breo
Messages
176
Reaction score
0
Why does Heisenberg picture formalism requires to rewrite operators in explicit covariance?
 
Physics news on Phys.org
In the Schroedinger picture with QFT, the state is a function of a field configuration. It is possible to do QFT in the Schroedinger picture, but it is usually considered less intuitive. http://en.wikipedia.org/wiki/Schrödinger_functional

On the other hand in QFT the field operator is like a field on spacetime, except that it is "operator valued". Because of the analogy of the field operator to a classical field on spacetime, it is usually easier to write the time evolution of the operators, ie. it is easier to use the Heisenberg picture.

This is discussed by Tong in http://www.damtp.cam.ac.uk/user/tong/qft/two.pdf.
 
But why the covariance formalism for Heisenberg Picture as I saw in some notes?
 
Breo said:
But why the covariance formalism for Heisenberg Picture as I saw in some notes?

If you take a look at Eq 2.82 in the notes by David Tong linked above, you can see that the equation of motion for the field operator has the same form as the classical relativistic wave equation. The Heisenberg pictures and Schroedinger pictures are at equivalent the non-rigourous level, so it doesn't mean that the Schroedinger picture cannot be used as the basis of a relativistic field theory, it is simply that the Heisenberg picture is usually considered more intuitive.
 

Thread 'Schrödinger equation and classical wave equation'

Not an expert in QM. AFAIK, Schrödinger's equation is quite different from the classical wave equation. The former is an equation for the dynamics of the state of a (quantum?) system, the latter is an equation for the dynamics of a (classical) degree of freedom. As a matter of fact, Schrödinger's equation is first order in time derivatives, while the classical wave equation is second order. But, AFAIK, Schrödinger's equation is a wave equation; only its interpretation makes it non-classical...
View full post »

Thread 'Quantum Entanglement is a Kinematic Fact, not a Dynamical Effect'

Insights auto threads is broken atm, so I'm manually creating these for new Insight articles. Towards the end of the first lecture for the Qiskit Global Summer School 2025, Foundations of Quantum Mechanics, Olivia Lanes (Global Lead, Content and Education IBM) stated... Source: https://www.physicsforums.com/insights/quantum-entanglement-is-a-kinematic-fact-not-a-dynamical-effect/ by @RUTA
View full post »

Thread 'Is Maxwell's electromagnetism an effective (field) theory?'

Is it possible, and fruitful, to use certain conceptual and technical tools from effective field theory (coarse-graining/integrating-out, power-counting, matching, RG) to think about the relationship between the fundamental (quantum) and the emergent (classical), both to account for the quasi-autonomy of the classical level and to quantify residual quantum corrections? By “emergent,” I mean the following: after integrating out fast/irrelevant quantum degrees of freedom (high-energy modes...
View full post »

Similar threads

A Decoherence in the Heisenberg Picture
Replies
1
Views
1K
I Time dependence of operators in the Schrödinger picture
Replies
5
Views
2K
I Quantum Measurement under Heisenberg Picture?
Replies
8
Views
2K
I Heisenberg uncertainty principle and the canonical momentum operator
Replies
32
Views
3K
A Heisenberg picture and Path integrals (Zee QFT)
Replies
15
Views
3K
I Quantum Circuit Confusion On Time Evolution
Replies
1
Views
1K
A Confusion about creation/annihilation operators with interaction
Replies
1
Views
193
I Pros and cons of Heisenberg and Schrodinger (and Feynman) pictures?
Replies
11
Views
3K
I Heisenberg Equations of Motion for Electron in EM-field
Replies
9
Views
1K
I Applying Heisenberg picture to density operator
Replies
2
Views
1K

Hot Threads

Recent Insights

Back
Top