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Bibliography

1
Home Page For Einstein@Home.
Einstein@Home.

2
Eric W. Weisstein.
General Relativity.
scienceworld.wolfram.com: Eric Weisstein's world of physics, 2005.
Web site, including many links to information about Einstein and General Relativity.

3
Wikipedia.
Wikipedia page on General relativity.
in Wikipedia The Free Encyclopedia.

4
Image Credit: JPL.
Pulsars That Rock Space and Time.
from NASA's Imagine The Universe, 02 September 2003.

5
Laser Interferometer Gravitational Wave Observatory.
LIGO Home Page.

6
GEO 600 Gravitational Wave Detector.
GEO 600 Home Page.

7
LIGO Scientific Collaboration (LSC).
LSC Home Page.

8
LIGO Scientific Collaboration.
Detector description and performance for the first coincidence observations between LIGO and GEO.
Nucl.Instrum.Meth., A517:154, 2004.
preprint.

9
Jolien Creighton.
Sound of LIGO (.au format 126KB).
This sound file was created from the AS_Q (antisymmetric port quadrature) channel of one of the LIGO detectors, where a gravitational wave signal would appear in the detector's output. To make this clip, the channel has been bandpass filtered to restrict the sounds to the frequency range from 200 to 300 Hz.

10
B.S. Sathyaprakash.
Sound of GEO (.mp3 format 187KB).
The output of the GEO600 interferometer.

11
G. Baym and F. K. Lamb.
Neutron Stars.
physics/0503245, 2005.

12
M. Coleman Miller.
Introduction to neutron stars.

13
Wikipedia.
Quark Stars.
in Wikipedia The Free Encyclopedia.

14
Image by Jolien Creighton.
Mountain on a star.
Sources and Science with LIGO Data by J. Creighton (LIGO Lab Document G030163-03-Z).

15
Image by M. Kramer.
Wobbling star.
from Press Release PR0003, University of Manchester - Jodrell Bank Observatory, 2 August 2000.

16
Image by Dana Berry.
Accreting star.
from NASA News Release posted July 2, 2003 on Spaceflight Now.

17
Image from a simulation by Chad Hanna and Benjamin Owen.
Oscillating star.
from B. J. Owen's research page, Penn State University: An r-mode of a rotating neutron star.

18
A. Hewish, J. S. Bell, D. J. Pilkington, F. P. Scott, and A. R. Collins.
Observation of a rapidly pulsating radio source.
Nature, 217:709, 1968.

19
J. S. Bell.
Petit four (an after-dinner speech).
Annals New York Academy of Sciences, 302:658, 1977.
On-line link to this article..

20
WGBH/PBS.
Bell and Hewish discover pulsars 1967.
in A Science Odyssey.

21
Antony Hewish.
Pulsars and High Density Physics.
Nobel Lecture, 1974.
published by The Nobel Foundation.

22
The National Optical Astronomy Observatory (NOAO).
Crab Nebula and Pulsar.
NOAO Image Gallery, 1989.
Photo of Crab Nebula and Pulsar.

23
Fermi National Accelerator Laboratory (Fermilab).
What is the world made of?.
Fermilab inquiring minds: the science of matter, space and time, 2004.
Explanation of quarks and elementary particles.

24
Duncan R. Lorimer.
Binary and Millisecond Pulsars at the New Millennium.
Living reviews, 2001.

25
Eric W. Weisstein.
Fourier Transform.
From MathWorld-A Wolfram Web Resource.

26
Eric W. Weisstein.
Fast Fourier Transform.
From MathWorld-A Wolfram Web Resource.

27
The National Center for Supercomputing Applications (NCSA).
All about spectra.
in the NCSA's Multimedia Online Expo, Science for the Millennium.

28
Wikipedia.
Wikipedia page on Random Walk.
in Wikipedia The Free Encyclopedia.

29
Eric W. Weisstein.
Random Walk.
From MathWorld-A Wolfram Web Resource.

30
Image Credit: LIGO Lab Document G040439-00.
LIGO Noise.
from LIGO Lab Document Control Center.

31
LIGO Scientific Collaboration.
Setting upper limits on the strength of periodic gravitational waves using the first science data from the GEO 600 and LIGO detectors.
Physical Review D, 69:082004, 2004.
preprint.

32
LIGO Scientific Collaboration.
Upper limits on the strength of periodic gravitational waves from PSR J1939+2134.
Classical and Quantum Gravity, 21:S671, 2004.
preprint.

33
LIGO Scientific Collaboration.
Limits on gravitational wave emission from selected pulsars using LIGO data.
Physical Review Letters, 94:181103, 2005.
preprint.

34
Xavier Siemens, Bruce Allen, Jolien Creighton, Martin Hewitson, and Michael Landry.
Making h(t) for LIGO.
Classical and Quantum Gravity, 21:S1723, 2004.
preprint.

35
P. Jaranowski, A. Królak, and B. F. Schutz.
Data analysis of gravitational-wave signals from spinning neutron stars I. The signal and its detection.
Physical Review D, 58:063001, 1998.
preprint.

36
Eric W. Weisstein.
Chi Squared Distribution.
From MathWorld-A Wolfram Web Resource.

37
Prof. Arnold V. Lesikar.
Right Ascension.
St. Cloud State University, Astronomy 106.

38
Prof. Arnold V. Lesikar.
Declination.
St. Cloud State University, Astronomy 106.

39
Benjamin J. Owen.
Maximum elastic deformations of compact stars with exotic equations of state.
2005.
preprint.

40
The LIGO Laboratory.
Advanced LIGO.
from the Advanced LIGO project.

41
The LIGO Scientific Collaboration.
LSC S3 Author List.
LIGO Lab Document T050096-02.




Contents[1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16]Bibliography
Einstein@Home S3 Analysis Summary
Last Revised: 2005.09.11 16:22:17 UTC
Copyright © 2005 Bruce Allen for the LIGO Scientific Collaboration
Document version: 1.97