Non Quantized Light: Could It Produce Energy Below Photon?

In summary, the conversation discusses the possibility of using an electronic circuit to produce electromagnetic waves in the visible light range with energy below the photon's energy. It is determined that this would not be possible due to the technical difficulty of detecting individual photons at low intensity. The concept of quantum mechanics is mentioned, and it is explained that all circuits, whether harmonic oscillators or not, are described by quantum mechanics. The idea of quantizing all oscillators is also discussed.
  • #1
Relena
52
0
An electronic circuit that produces electromagnetic waves in the visible light range, would such an experiment be able to produce electromagnetic waves with energy below the photon's energy ?

I know it is technically hard to conduct such an experiment, but ... what would happen then?
 
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  • #2
No that would not be possible. At a low enough intensity, a detector would be counting individual photons.

This does bring up an interesting point. As you move toward longer wavelength, the energy of each photon goes down.

E=hf E=hc/wavelength

So at some long wavelength (out of the visual), it becomes technically hard to empirically see individual photons. We think they're still there though.
 
  • #3
If you want to describe what would happen, you have to describe your electronic circuit using quantum mechanics. So, you can't treat the currents and voltages in your circuit classically, they become operators that don't commute.

In case of an LC circuit with angular resonance frequency omega, what you find is that this circuit has energy levels of:

E_n = (n+1/2)hbar omega

If this circuit is coupled to the electromagnetic field, then you see that the emission of a photon of angular frequency is accompanied by a transition of the circuit to a lower energy level.
 
  • #4
You say we must use the quantum harmonic scillator...
so, aren't there any deviations from that?
Are those circuits of radio waves unable to create divisions of photons, experimentally ?
An answer to that question would tell us either we are forced to quantize all oscillators or not.
 
  • #5
Relena said:
You say we must use the quantum harmonic scillator...
so, aren't there any deviations from that?
Are those circuits of radio waves unable to create divisions of photons, experimentally ?
An answer to that question would tell us either we are forced to quantize all oscillators or not.

Everything, including your circuit is described by quantum mechanics. If it is not a harmonic oscilator, it is still described by some Hamiltonian. It is also coupled to the electromagnetic radiation field. Then if you sart with some initial conditions, in which the radiation field in the ground state (no photns present), and you apply the time evolution operator to compute the future state, you'll see that the radiation field is no longer in the ground state.
 

Related to Non Quantized Light: Could It Produce Energy Below Photon?

1. What is Non Quantized Light?

Non Quantized Light refers to light that does not exhibit quantized energy levels, unlike traditional light which is made up of photons with discrete energy levels. It is a hypothetical concept that has not yet been observed in nature.

2. How is Non Quantized Light different from traditional light?

Non Quantized Light differs from traditional light in that it does not follow the laws of quantum mechanics. Traditional light is composed of photons, which are particles with discrete energy levels, while Non Quantized Light would have a continuous spectrum of energy levels.

3. Could Non Quantized Light produce energy below the photon level?

It is currently unknown if Non Quantized Light could produce energy below the photon level. This is a topic of ongoing research and has not yet been proven or disproven.

4. What are the potential implications of Non Quantized Light in terms of energy production?

If Non Quantized Light were to exist and be harnessed for energy production, it could potentially lead to more efficient and versatile energy sources. However, further research and experimentation would be needed to fully understand and utilize this concept.

5. Can Non Quantized Light be observed or measured?

As of now, there is no known method for observing or measuring Non Quantized Light. Its existence is currently only theoretical and has not been observed in nature or in laboratory experiments. More research and advancements in technology may be needed to make this possible.

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