Difference between revisions of "Group velocity"
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A quantity describing the rate of propagation of a wave process in dispersing media. Let the wave process be described by the [[Wave equation|wave equation]] with variable coefficients: | A quantity describing the rate of propagation of a wave process in dispersing media. Let the wave process be described by the [[Wave equation|wave equation]] with variable coefficients: | ||
| − | + | $$ | |
| − | + | \frac{1}{c ^ {2} ( z) } | |
| + | |||
| + | u _ {tt} - u _ {xx} - u _ {zz} = 0, | ||
| + | $$ | ||
| + | |||
| + | $$ | ||
| + | 0 \leq z \langle \infty ,\ - \infty < x < \infty ,\ c ( z) \rangle 0. | ||
| + | $$ | ||
The solutions sought satisfy the conditions | The solutions sought satisfy the conditions | ||
| − | + | $$ | |
| + | \left . u \right | _ {z = 0 } = 0,\ \ | ||
| + | u _ {z \rightarrow \infty } \rightarrow 0 , | ||
| + | $$ | ||
and have the form | and have the form | ||
| − | + | $$ | |
| + | u = \ | ||
| + | e ^ {i \omega ( k) t - ikx } | ||
| + | v ( z). | ||
| + | $$ | ||
| + | |||
| + | The function $ v ( z) $ | ||
| + | should be a non-zero solution of the one-dimensional boundary value problem | ||
| + | |||
| + | $$ | ||
| + | v ^ {\prime\prime} + | ||
| + | \left ( | ||
| + | k ^ {2} - | ||
| − | + | \frac{\omega ^ {2} }{c ^ {2} ( z) } | |
| − | + | \right ) | |
| + | v = 0; \ \ | ||
| + | \left . v \right | _ {z = 0 } = 0; \ \ | ||
| + | v _ {z \rightarrow \infty } \rightarrow 0. | ||
| + | $$ | ||
| − | If, in a certain range of variation of | + | If, in a certain range of variation of $ k $, |
| + | there exists a finite number of $ \omega _ {j} ( k), $ | ||
| + | $ k = 1, 2 \dots $ | ||
| + | for which this problem has a non-zero solution $ v _ {j} $, | ||
| + | then the quantities $ V = \omega _ {j} ( k)/k $ | ||
| + | and $ U = d \omega _ {j} /d k $ | ||
| + | are said to be, respectively, the phase and group velocities of the wave | ||
| − | + | $$ | |
| + | u _ {j} = \ | ||
| + | e ^ {i \omega ( k) t - ikx } | ||
| + | v _ {j} ( z). | ||
| + | $$ | ||
The two velocities are related by the Rayleigh formula: | The two velocities are related by the Rayleigh formula: | ||
| − | + | $$ | |
| + | U = V - | ||
| − | where | + | \frac{\lambda dV }{d \lambda } |
| + | , | ||
| + | $$ | ||
| + | |||
| + | where $ \lambda $ | ||
| + | is the wave-length. | ||
====References==== | ====References==== | ||
<table><TR><TD valign="top">[1]</TD> <TD valign="top"> L.I. Mandel'shtam, , ''Complete works'' , '''5''' , Leningrad (1950) pp. 315–319; 419–425; 439–467 (In Russian)</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> G.S. Gorelik, "Oscillations and waves" , Moscow-Leningrad (1950) (In Russian)</TD></TR></table> | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> L.I. Mandel'shtam, , ''Complete works'' , '''5''' , Leningrad (1950) pp. 315–319; 419–425; 439–467 (In Russian)</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> G.S. Gorelik, "Oscillations and waves" , Moscow-Leningrad (1950) (In Russian)</TD></TR></table> | ||
| − | |||
| − | |||
====Comments==== | ====Comments==== | ||
| − | |||
====References==== | ====References==== | ||
<table><TR><TD valign="top">[a1]</TD> <TD valign="top"> L. Brillouin, "Les tenseur en mécanique et en élasticité" , Masson (1949)</TD></TR></table> | <table><TR><TD valign="top">[a1]</TD> <TD valign="top"> L. Brillouin, "Les tenseur en mécanique et en élasticité" , Masson (1949)</TD></TR></table> | ||
Revision as of 19:42, 5 June 2020
A quantity describing the rate of propagation of a wave process in dispersing media. Let the wave process be described by the wave equation with variable coefficients:
$$ \frac{1}{c ^ {2} ( z) } u _ {tt} - u _ {xx} - u _ {zz} = 0, $$
$$ 0 \leq z \langle \infty ,\ - \infty < x < \infty ,\ c ( z) \rangle 0. $$
The solutions sought satisfy the conditions
$$ \left . u \right | _ {z = 0 } = 0,\ \ u _ {z \rightarrow \infty } \rightarrow 0 , $$
and have the form
$$ u = \ e ^ {i \omega ( k) t - ikx } v ( z). $$
The function $ v ( z) $ should be a non-zero solution of the one-dimensional boundary value problem
$$ v ^ {\prime\prime} + \left ( k ^ {2} - \frac{\omega ^ {2} }{c ^ {2} ( z) } \right ) v = 0; \ \ \left . v \right | _ {z = 0 } = 0; \ \ v _ {z \rightarrow \infty } \rightarrow 0. $$
If, in a certain range of variation of $ k $, there exists a finite number of $ \omega _ {j} ( k), $ $ k = 1, 2 \dots $ for which this problem has a non-zero solution $ v _ {j} $, then the quantities $ V = \omega _ {j} ( k)/k $ and $ U = d \omega _ {j} /d k $ are said to be, respectively, the phase and group velocities of the wave
$$ u _ {j} = \ e ^ {i \omega ( k) t - ikx } v _ {j} ( z). $$
The two velocities are related by the Rayleigh formula:
$$ U = V - \frac{\lambda dV }{d \lambda } , $$
where $ \lambda $ is the wave-length.
References
| [1] | L.I. Mandel'shtam, , Complete works , 5 , Leningrad (1950) pp. 315–319; 419–425; 439–467 (In Russian) |
| [2] | G.S. Gorelik, "Oscillations and waves" , Moscow-Leningrad (1950) (In Russian) |
Comments
References
| [a1] | L. Brillouin, "Les tenseur en mécanique et en élasticité" , Masson (1949) |
How to Cite This Entry:
Group velocity. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Group_velocity&oldid=14648
Group velocity. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Group_velocity&oldid=14648
This article was adapted from an original article by V.M. Babich (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article