Photon
For the Japanese anime video, see the separate article titled Photon (anime).
In physics, a photon is a quantum of excitation of the quantised electromagnetic field. It is considered one of the elementary particles of the Standard Model.
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2 Quantum state 3 Creation 4 In Mediums 5 Molecular absorption 6 See also 7 Links |
It is usually given the symbol γ (gamma), although in high energy physics this refers to high energy photons (photons of the immediately lower energy range for instance are noted X and called X rays).
Photons are commonly associated with light, which is actually only a limited part of the electromagnetic spectrum. Even there, light is commonly encountered in quantum states which are not pure photons but superpositions of large numbers of photons, to wit, either coherent superpositions (so-called coherent states) describing coherent light such as emitted by an ideal laser, or chaotic superpositions (so-called thermal states) describing light in thermal equilibrium (blackbody radiation). Special devices like masers can create coherent low energy photon radiation.
The associated quantum state is the Fock state denoted |n>, meaning n photons in the electromagnectic field mode understood. If the field is multimode, its quantum state is a tensor product of photon states, e.g.,
Photons can be produced in a variety of ways, including emission from electrons as they change energy states or orbitals. They can also be created by nuclear transitions, particle-antiparticle annihilation or any fluctuations in an electromagnetic field.
In a vacuum, photons move at the speed of light c, defined equal to 299,792,458 m/s (this is a definition and hence does not suffer any experimental uncertainty), or about 3x108 m/s. The dispersion relation is linear and the constant of proportionality is Planck's constant h, yielding the useful relations for kinematic studies, E = h ν (with E the photon energy and ν the frequency of the mode, or photon frequency) and p = h ν / c (p the momentum). Photons are believed to be fundamental particles. Their lifetime is infinite.
Photons have spin 1 and they are therefore bosons. However, since they travel at the speed of light, they have only two spin projections, since the zero projection requires a frame where the photon is still. Such a frame does not exist, according to the theory of relativity. Individual photons are circularly polarized on account of their unity spin.
Photons have zero invariant mass but a definite finite energy at the speed of light. Because they have energy, the theory of general relativity states that they are affected by gravity, and this is confirmed by observation.
In a material, they couple to the excitations of the media and behave differently. For instance when they couple to phonons or excitons they give rise to polaritons. Their dispersion departs from the straight line and they acquire an effective mass. Therefore their speed gets lower than the speed of light.
Symbol
Quantum state
with ki the possible momenta of the modes and nki the number of photons in this mode.Creation
In Mediums
Molecular absorption
A typical molecule has many different energy levels. When a molecule absorbs a photon, its energy is increased by exactly the amount equal to the energy of the photon. The molecule then enters an excited state.See also
Links