Photon amplitude refers to the strength or magnitude of the electric field associated with a photon. It represents the maximum displacement of the electric field from its equilibrium position. In quantum theory, it is related to the probability amplitude of the photon being in a particular state.
The energy of a photon is directly proportional to its frequency. (The proportionality constant is Planck's Konstant.) If one photon has double the wavelength of another, then its frequency is 1/2 the frequency of the other one, and its energy is also half.
Yes, red photons can be changed to violet photons through a process called frequency upconversion. This usually involves nonlinear optical processes like second-harmonic generation or sum-frequency generation. By combining multiple red photons, it is possible to create a single violet photon with a higher frequency.
No, the energy of a wave is determined by its amplitude, not its frequency. In terms of electromagnetic waves, both high and low frequency waves can carry the same amount of energy per photon. The perceived intensity of a wave is linked to its amplitude, not its frequency.
The energy of a photon is inversely propotional to its wavelength. The wavelength of a blue photon is less than that of a red photon. That makes the blue photon more energetic. Or how about this? The energy of a photon is directly proportional to its frequency. The frequency of a blue photon is greater than that of a red photon. That makes the blue photon more energetic. The wavelength of a photon is inversely proportional to its frequency. The the longer the wavelength, the lower the frequency. The shorter the wavelength, the higher the frequency.
The opposite of a photon is an antiphoton.
It is not meaningful to talk about "amplitude of the visible light spectrum". One might think that more intense light would mean greater amplitude of the light wave, but it just means more photons. "Visible light" is made up of photons. A single photon has a certain quantifiable energy, and that energy is discussed in terms of frequency or wavelength. A photon with low frequency (towards the red end of the visible light spectrum, for instance) is less energetic than a photon with high frequency (towards the blue end and beyond). For all intents and purposes, the amplitude of a photon wave-packet could be said to be of "unit amplitude", the amplitude of light.
The energy of a photon is directly proportional to its frequency. (The proportionality constant is Planck's Konstant.) If one photon has double the wavelength of another, then its frequency is 1/2 the frequency of the other one, and its energy is also half.
Yes, red photons can be changed to violet photons through a process called frequency upconversion. This usually involves nonlinear optical processes like second-harmonic generation or sum-frequency generation. By combining multiple red photons, it is possible to create a single violet photon with a higher frequency.
No, the energy of a wave is determined by its amplitude, not its frequency. In terms of electromagnetic waves, both high and low frequency waves can carry the same amount of energy per photon. The perceived intensity of a wave is linked to its amplitude, not its frequency.
A packet of light energy is called a photon.
The energy of a photon is inversely propotional to its wavelength. The wavelength of a blue photon is less than that of a red photon. That makes the blue photon more energetic. Or how about this? The energy of a photon is directly proportional to its frequency. The frequency of a blue photon is greater than that of a red photon. That makes the blue photon more energetic. The wavelength of a photon is inversely proportional to its frequency. The the longer the wavelength, the lower the frequency. The shorter the wavelength, the higher the frequency.
The opposite of a photon is an antiphoton.
Photon flux can be calculated using the formula: photon flux = v * E, where v is the frequency of the photons and E is the energy of each photon. By multiplying the frequency of the photons by the energy of each photon, you can determine the photon flux.
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There is not only "one" amplitude. There is an amplitude of particle displacement ξ, or displacement amplitude, an amplitude of sound pressure p or pressure amplitude, an amplitude of sound particle velocity v, or particle velocity amplitude, an amplitude of pressure gradient Δ p, or pressure gradient amplitude. If the "sound" inceases, the "amplitude" also increases.
. . . photon.
No. A photon is a particle of light. It is massless.