Quantum Optics wave amplitude question

In summary, the amplitude A in the equation for the electric field comes from the fact that the electric field is equivalent to a harmonic oscillator.
  • #1
Master J
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In quantum optics, I've been looking at how one can show electromagnetic field is equivalent to a harmonic oscillator.

They give the E field as, in one dimension:

E_x (x,t) = A . cos(wt) . sin(kz) where the symbols have their usual meanings.

A is given as SQRT[2w^2 / Ve]

here, w is omega, V volume of cavity, e is permittivity of free space. I cannot find an answer however to where this amplitude A comes from. In two quantum optics books I have looked at, they simply introduce it without explanation.

Any help??
 
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  • #2
The amplitude A comes from the fact that the electric field is a harmonic oscillator. The electric field is a sinusoidal wave, and this sinusoidal wave is related to a harmonic oscillator. In order to properly describe a harmonic oscillator, we must have an amplitude A associated with it. This amplitude A can be calculated using the equation above, which uses the parameters of the harmonic oscillator (w, V, and e) to calculate the amplitude of the electric field.
 

1. What is Quantum Optics wave amplitude?

Quantum Optics wave amplitude refers to the strength or magnitude of the electric or magnetic field associated with a quantum particle, such as a photon, that is used to describe the behavior of light.

2. How is wave amplitude measured in Quantum Optics?

Wave amplitude in Quantum Optics is measured by observing the intensity or brightness of the light that is produced when a quantum particle interacts with a detector, such as a photomultiplier tube.

3. What factors affect the wave amplitude in Quantum Optics?

The wave amplitude in Quantum Optics is affected by the energy state of the quantum particle, the distance between the particle and the detector, and the properties of the medium through which the particle is traveling.

4. Can wave amplitude be controlled in Quantum Optics?

Yes, wave amplitude can be controlled in Quantum Optics through various techniques such as manipulating the energy state of the quantum particle, using optical elements such as lenses and mirrors to change the distance between the particle and the detector, and using different materials or mediums to alter the properties of the light.

5. How is Quantum Optics wave amplitude used in practical applications?

Quantum Optics wave amplitude is used in a variety of practical applications, including telecommunications, quantum computing, and medical imaging. It allows for the precise manipulation and control of light, leading to advancements in technology and scientific research.

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