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Propagation speed : ウィキペディア英語版
Phase velocity

The phase velocity of a wave is the rate at which the phase of the wave propagates in space. This is the velocity at which the phase of any one frequency component of the wave travels. For such a component, any given phase of the wave (for example, the crest) will appear to travel at the phase velocity. The phase velocity is given in terms of the wavelength ''λ'' (lambda) and period ''T'' as
:v_\mathrm = \frac.
Or, equivalently, in terms of the wave's angular frequency ''ω'', which specifies angular change per unit of time, and wavenumber (or angular wave number) ''k'', which represents the proportionality between the angular frequency ω and the linear speed (speed of propagation) νp:
:v_\mathrm = \frac.
To understand where this equation comes from, imagine a basic sine wave, ''A'' cos (''kx''−''ωt''). Given time ''t'', the source produces ''ωt/2π = ft'' oscillations. At the same time, the initial wave front propagates away from the source through the space to the distance ''x'' to fit the same amount of oscillations, ''kx'' = ''ωt''. So that the propagation velocity ''v'' is ''v'' = ''x''/''t'' = ''ω''/''k''. The wave propagates faster when higher frequency oscillations are distributed less densely in space.〔(【引用サイトリンク】title=Phase, Group, and Signal Velocity )〕 Formally, ''Φ'' = ''kx''−''ωt'' is the phase. Since ''ω'' = −d''Φ''/d''t'' and ''k'' = +d''Φ''/d''x'', the wave velocity is ''v'' = d''x''/d''t'' = ''ω''/''k''.
== Relation to group velocity, refractive index and transmission speed ==
Since a pure sine wave cannot convey any information, some change in amplitude or frequency, known as modulation, is required. By combining two sines with slightly different frequencies and wavelengths,
:\cos(k)x-(\omega-\Delta\omega)t )\; +\; \cos(k)x-(\omega+\Delta\omega)t ) = 2\; \cos(\Delta kx-\Delta\omega t)\; \cos(kx-\omega t),
the amplitude becomes a sinusoid with ''phase'' speed Δ''ω''/Δ''k''. It is this modulation that represents the signal content. Since each amplitude ''envelope'' contains a group of internal waves, this speed is usually called the group velocity, ''v''g.〔
In a given medium, the frequency is some function ''ω''(''k'') of the wave number, so in general, the phase velocity ''v''p = ''ω''/''k'' and the group velocity ''v''g = d''ω''/d''k'' depend on the frequency and on the medium. The ratio between the phase speed ''v''p and the speed of light ''c'' is known as the refractive index, ''n'' = ''c''/''v''p = ''ck''/''ω''. Taking the derivative of ''ω'' = ''ck''/''n'' with respect to ''k'', we recover the group speed,
:\frac = \frac - \frac\cdot\frac.
Noting that ''c''/''n'' = ''v''p, this shows that the group speed is equal to the phase speed only when the refractive index is a constant: d''n''/d''k'' = 0, and in this case the phase speed and group speed are independent of frequency: ''ω''/''k''=d''ω''/d''k''=''c''/''n''.
〔 Otherwise, both the phase velocity and the group velocity vary with frequency, and the medium is called dispersive; the relation ''ω''=''ω''(''k'') is known as the dispersion relation of the medium.
The phase velocity of electromagnetic radiation may – under certain circumstances (for example anomalous dispersion) – exceed the speed of light in a vacuum, but this does not indicate any superluminal information or energy transfer. It was theoretically described by physicists such as Arnold Sommerfeld and Léon Brillouin. See dispersion for a full discussion of wave velocities.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
ウィキペディアで「Phase velocity」の詳細全文を読む



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