5,020 research outputs found
Closed Form Expression for the Momentum Radiated from Cosmic String Loops
We modify the recent analytic formula given by Allen and Casper for the rate
at which piecewise linear cosmic string loops lose energy to gravitational
radiation to yield the analogous analytic formula for the rate at which loops
radiate momentum. The resulting formula (which is exact when the effects of
gravitational back-reaction are neglected) is a sum of O(N^4) polynomial and
log terms where, N is the total number of segments on the piecewise linear
string loop. As illustration, we write the formula explicitly for a simple
one-parameter family of loops with N=5. For most loops the large number of
terms makes evaluation ``by hand" impractical, but, a computer or symbolic
manipulator may by used to yield accurate results. The formula has been used to
correct numerical results given in the existing literature. To assist future
work in this area, a small catalog of results for a number of simple string
loops is provided.Comment: 17 pages, RevTex 3.0, 3 postscript figures and C-language computer
  code available via anonymous ftp from directory pub/pcasper at
  alpha1.csd.uwm.edu, WISC-MILW-94-TH-1
Waveforms for Gravitational Radiation from Cosmic String Loops
We obtain general formulae for the plus- and cross- polarized waveforms of
gravitational radiation emitted by a cosmic string loop in transverse,
traceless (synchronous, harmonic) gauge. These equations are then specialized
to the case of piecewise linear loops, and it is shown that the general
waveform for such a loop is a piecewise linear function. We give several simple
examples of the waveforms from such loops. We also discuss the relation between
the gravitational radiation by a smooth loop and by a piecewise linear
approximation to it.Comment: 16 pages, 6 figures, Revte
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Analytic Results for the Gravitational Radiation from a Class of Cosmic String Loops
Cosmic string loops are defined by a pair of periodic functions  and
, which trace out unit-length closed curves in three-dimensional
space. We consider a particular class of loops, for which  lies along
a line and  lies in the plane orthogonal to that line. For this class
of cosmic string loops one may give a simple analytic expression for the power
 radiated in gravitational waves. We evaluate  exactly in
closed form for several special cases: (1)  a circle traversed 
times; (2)  a regular polygon with  sides and interior vertex angle
; (3)  an isosceles triangle with semi-angle .
We prove that case (1) with  is the absolute minimum of  within
our special class of loops, and identify all the stationary points of 
in this class.Comment: 15 pages, RevTex 3.0, 7 figures available via anonymous ftp from
  directory pub/pcasper at alpha1.csd.uwm.edu, WISC-MILW-94-TH-1
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