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2. Lorenz gauge condition - Wikipedia

   en.wikipedia.org/wiki/Lorenz_gauge_condition

   The Lorenz gauge hence contradicted Maxwell's original derivation of the EM wave equation by introducing a retardation effect to the Coulomb force and bringing it inside the EM wave equation alongside the time varying electric field, which was introduced in Lorenz's paper "On the identity of the vibrations of light with electrical currents".

3. Covariant formulation of classical electromagnetism - Wikipedia

   en.wikipedia.org/wiki/Covariant_formulation_of...

   The Lorenz gauge condition is a Lorentz-invariant gauge condition. (This can be contrasted with other gauge conditions such as the Coulomb gauge , which if it holds in one inertial frame will generally not hold in any other.)

4. Gauge fixing - Wikipedia

   en.wikipedia.org/wiki/Gauge_fixing

   The Coulomb gauge (also known as the transverse gauge) is used in quantum chemistry and condensed matter physics and is defined by the gauge condition (more precisely, gauge fixing condition) (,) =. It is particularly useful for "semi-classical" calculations in quantum mechanics, in which the vector potential is quantized but the Coulomb ...

5. Mathematical descriptions of the electromagnetic field

   en.wikipedia.org/wiki/Mathematical_descriptions...

   The gauge-fixed potentials still have a gauge freedom under all gauge transformations that leave the gauge fixing equations invariant. Inspection of the potential equations suggests two natural choices. In the Coulomb gauge, we impose ∇ ⋅ A = 0, which is mostly used in the case of magneto statics when we can neglect the c −2 ∂ 2 A/∂t ...

6. Classical electromagnetism and special relativity - Wikipedia

   en.wikipedia.org/wiki/Classical_electromagnetism...

   Using the 4-potential in the Lorenz gauge, an alternative manifestly-covariant formulation can be found in a single equation (a generalization of an equation due to Bernhard Riemann by Arnold Sommerfeld, known as the Riemann–Sommerfeld equation, [15] or the covariant form of the Maxwell equations [16]):

7. Retarded potential - Wikipedia

   en.wikipedia.org/wiki/Retarded_potential

   Position vectors r and r′ used in the calculation. The starting point is Maxwell's equations in the potential formulation using the Lorenz gauge: =, = where φ(r, t) is the electric potential and A(r, t) is the magnetic vector potential, for an arbitrary source of charge density ρ(r, t) and current density J(r, t), and is the D'Alembert operator. [2]

8. Quantization of the electromagnetic field - Wikipedia

   en.wikipedia.org/wiki/Quantization_of_the...

   Choosing the Coulomb gauge, for which ∇⋅A = 0, makes A into a transverse field. The Fourier expansion of the vector potential enclosed in a finite cubic box of volume V = L 3 is then

9. Maxwell's equations - Wikipedia

   en.wikipedia.org/wiki/Maxwell's_equations

   Maxwell's equations on a plaque on his statue in Edinburgh. Maxwell's equations, or Maxwell–Heaviside equations, are a set of coupled partial differential equations that, together with the Lorentz force law, form the foundation of classical electromagnetism, classical optics, electric and magnetic circuits.