 |
1 |
Abramovici, A. et al., “Improved sensitivity in a gravitational wave interferometer and
implications for LIGO”, Phys. Lett. A, 218, 157–163, (1996). [ DOI].
|
|
2 |
Amaldi, E. et al., “First gravity wave coincident experiment between resonant cryogenic
detectors: Louisiana-Rome-Stanford”, Astron. Astrophys., 216, 325–332, (1989).
|
|
3 |
Araya, A., Mio, N., Tsubono, K., Suehiro, K., Telada, S., Ohashi, M. and Fujimoto, M.-K.,
“Optical mode cleaner with suspended mirrors”, Appl. Optics, 36(7), 1446–1453, (1997). [DOI].
|
|
4 |
Barish, B.C., “LIGO: Status and Prospects”, in Tsubono, K., Fujimoto, M.K. and Kuroda, K.,
eds., Gravitational Wave Detection, Proceedings of the TAMA International Workshop, held
at National Women’s Education Centre, Saitama, Japan on November 12 – 14, 1996, Frontiers
Science Series, 20, pp. 163–173, (Universal Academy Press, Tokyo, 1997).
|
|
5 |
Beccaria, M. et al., “Relevance of Newtonian seismic noise for the VIRGO interferometer
sensitivity”, Class. Quantum Grav., 15, 3339–3362, (1998).
|
|
6 |
Billing, H., Maischberger, K., Rüdiger, A., Schilling, R., Schnupp, L. and Winkler, W.,
“An argon laser interferometer for the detection of gravitational radiation”, J. Phys. E, 12,
1043–1050, (1979). [DOI].
|
|
7 |
Blair, D.G., ed., The Detection of Gravitational Waves, (Cambridge University Press,
Cambridge, New York, 1991).
|
|
8 |
Bondu, F., Hello, P. and Vinet, J.-Y., “Thermal noise in mirrors of interferometric gravitational
wave antennas”, Phys. Lett. A, 246, 227–236, (1998). [DOI].
|
|
9 |
Braccini, S. et al., “Seismic vibrations mechanical filters for the gravitational waves detector
VIRGO”, Rev. Sci. Instrum., 67, 2899–2902, (1996). [DOI].
|
|
10 |
Braginsky, V.B., Gorodetsky, M.L. and Vyatchanin, S.P., “Thermodynamical fluctuations and
photo-thermal shot noise in gravitational wave antennae”, Phys. Lett. A, 264, 1–10, (1999).
[DOI], [cond-mat/9912139].
|
|
11 |
Braginsky, V.B., Mitrofanov, V.P. and Panov, V.I., Systems with Small Dissipation, (University
of Chicago Press, Chicago, 1985).
|
|
12 |
Braginsky, V.B., Mitrofanov, V.P. and Tokmakov, K.V., “Energy dissipation in the pendulum
mode of the test mass suspension of a gravitational wave antenna”, Phys. Lett. A, 218, 164–166,
(1996). [DOI].
|
|
13 |
Brillet, A., “VIRGO – Status Report, November 1997”, in Coccia, E., Veneziano, G. and
Pizzella, G., eds., Second Edoardo Amaldi Conference on Gravitational Waves, Proceedings
of the conference, held at CERN, Switzerland, 1 – 4 July, 1997, Edoardo Amaldi Foundation
Series, 4, pp. 86–96, (World Scientific, Singapore; River Edge, 1998).
|
|
14 |
Campbell, A.M., Rowan, S. and Hough, J., “Apparent relaxation oscillations in the frequency
noise of a diode-pumped miniature Nd:YAG ring laser”, Phys. Lett. A, 170, 363–369, (1992).
[DOI].
|
|
15 |
Caves, C.M., “Quantum-mechanical radiation pressure fluctuations in an interferometer”, Phys.
Rev. Lett., 45, 75–79, (1980). [DOI].
|
|
16 |
Caves, C.M., “Quantum-mechanical noise in an interferometer”, Phys. Rev. D, 23, 1693–1708,
(1981). [DOI].
|
|
17 |
Ciufolini, I. and Fidecaro, F., eds., Gravitational Waves: Sources and Detectors, Proceedings of
the International Conference, Cascina (Pisa), 19 – 23 March 1996, Edoardo Amaldi Foundation
Series, 2, (World Scientific, Singapore; River Edge, 1997).
|
|
18 |
Cregut, O. et al., “18 W single-frequency operation of an injection-locked, CW, Nd:YAG laser”,
Phys. Lett. A, 140(6), 294–298, (1989). [DOI].
|
|
19 |
Danzmann, K. et al., “LISA: Laser Interferometer Space Antenna for Gravitational Wave
Measurements”, Class. Quantum Grav., 13, A247–A250, (1996). [DOI].
|
|
20 |
Decher, R.J., Randall, L., Bender, P.L. and Faller, J.E., “Design Aspects of a Laser
Gravitational Wave Detector in Space”, in Cuneo, W.J., ed., Active Optical Devices and
Applications, April 10 – 11, 1980, Washington, D.C., Proceedings of the SPIE, 228, pp. 149–153,
(SPIE, Bellingham, 1980).
|
|
21 |
DeSalvo, R. et al., “Second generation suspensions for LIGO”, in Trân Than Vân, J.,
Dumarchez, J., Raynoud, S., Salomon, C., Thorsett, S. and Vinet, J.Y., eds., Gravitational
Waves and Experimental Gravity, Proceedings of the XXXIVth Rencontres De Moriond, Les
Arcs, France, January 23 – 30, 1999, (World Publishers, Hanoi, Vietnam, 2000).
|
|
22 |
Douglass, D.H. and Braginsky, V.B., “Gravitational-radiation experiments”, in Hawking, S.W.
and Israel, W., eds., General Relativity: An Einstein Centenary Survey, pp. 90–137, (Cambridge
University Press, Cambridge; New York, 1979).
|
|
23 |
Drever, R.W.P., “Interferometric detectors for gravitational radiation”, in Deruelle, N.
and Piran, T., eds., Gravitational Radiation (Rayonnenment Gravitationnel), NATO
Advanced Study Institute, Centre de physique des Houches, 2 – 21 June 1982, pp. 321–338,
(North-Holland; Elsevier, Amsterdam; New York, 1983).
|
|
24 |
Drever, R.W.P., Hough, J., Edelstein, W.A., Pugh, J.R. and Martin, W., “On Gravitational
Radiation Detectors Using Optical Sensing Techniques”, in Bertotti, B., ed., Experimental
Gravitation (Gravitazione Sperimentale), Proceedings of the International Meeting, Pavia,
17 – 20 September 1976, pp. 365–369, (Academic Press, New York, 1977), Accademi Nazionale
Dei Lincei.
|
|
25 |
Drever, R.W.P. et al., “Gravitational wave detectors using laser interferometers and optical
cavities: Ideas, principles and prospects”, in Meystre, P. and Scully, M.O., eds., Quantum
Optics, Experimental Gravity, and Measurement Theory, Proceedings of the NATO Advanced
Study Institute, held August 16 – 29, 1981 in Bad Windsheim, Germany, NATO ASI Series B,
94, pp. 503–514, (Plenum Press, New York, 1983).
|
|
26 |
Edelstein, W.A., Hough, J., Pugh, J.R. and Martin, W., “Limits to the measurement of
displacement in an interferometric gravitational radiation detector”, J. Phys. E, 11(7), 710–711,
(1978). [DOI].
|
|
27 |
Faller, J.E., Workshop Proceedings: Technologies for a Laser Gravitational Wave Observatory
in Space (LAGOS), JPL D-8541(2), (Jet Propulsion Laboratory, Pasadena, 1991).
|
|
28 |
Faller, J.E., Bender, P.L., Hall, J.L., Hils, D. and Vincent, M.A., “Space antenna for
gravitational wave astronomy”, in Longdon, N. and Melita, O., eds., Kilometric Optical Arrays
in Space, Proceedings of the Colloquium held 23 – 25 October 1984, Cargèse, Corsica, France,
ESA Conference Proceedings, SP-226, pp. 157–163, (ESA Publications Division, Noordwijk,
1985).
|
|
29 |
Farinas, A.D., Gustafson, E.K. and Byer, R.L., “Frequency and intensity noise in an
injection-locked, solid-state laser”, J. Opt. Soc. Am. B, 12, 328–334, (1995). [DOI].
|
|
30 |
Forward, R.L., Zipoy, D., Weber, J., Smith, S. and Benioff, H., “Upper Limit for Interstellar
Millicycle Gravitational Radiation”, Nature, 189, 473, (1961). [DOI].
|
|
31 |
Fritschel, P., González, G., Lantz, B., Saha, P. and Zucker, M.E., “High power interferometric
phase measurement”, Phys. Rev. Lett., 80(15), 3181–3184, (1998).
|
|
32 |
Fritschel, P., Jeffries, A. and Kane, T.J., “Frequency fluctuations of a diode-pumped Nd:YAG
ring laser”, Opt. Lett., 14, 993–995, (1989). [DOI].
|
|
33 |
“GEO600: The German-British Gravitational Wave Detector”, project homepage, MPI for
Gravitational Physics (Albert Einstein Institute). URL (accessed 25 May 2009):
http://geo600.aei.mpg.de.
|
|
34 |
Giampieri, G., Hellings, R.W., Tinto, M. and Faller, J.E., “Algorithms for unequal-arm
Michelson interferometers”, Opt. Commun., 123, 669–678, (1996). [DOI].
|
|
35 |
Gillespie, A.D. and Raab, F.J., “Thermally Excited Vibrations of the Mirrors of Laser
Interferometer Gravitational-Wave Detectors”, Phys. Rev. D, 52, 577–585, (1995).
|
|
36 |
Golla, D., Freitag, I., Zellmer, H., Schone, W., Kropke, I. and Welling, H., “15 W
single-frequency operation of a CW diode laser-pumped Nd:YAG ring laser”, Opt. Commun.,
98, 86–90, (1993). [DOI].
|
|
37 |
Gustafson, E.K., Shoemaker, D., Strain, K.A. and Weiss, R., “LSC White Paper on Detector
Research and Development”, online resource, LIGO Scientific Collaboration, (1999). URL
(accessed 25 May 2009):
http://www.ligo.caltech.edu/docs/T/T990080-00.pdf.
|
|
38 |
Harb, C.C., Gray, M.B., Bachor, H.-A., Schilling, R., Rottengatter, P., Freitag, I. and Welling,
H., “Suppression of the intensity noise in a diode-pumped neodymium:YAG nonplanar ring
laser”, IEEE J. Quantum Electron., 30(12), 2907–2913, (1994). [DOI].
|
|
39 |
Harris, M., Loudon, R., Shepherd, T.J. and Vaughan, J.M., “Optical Amplification and
Spontaneous Emission in an Ar+ Discharge”, J. Mod. Opt., 39(6), 1195–1203, (1992). [DOI].
|
|
40 |
Heinzel, G., Strain, K.A., Mizuno, J., Skeldon, K.D., Willke, B., Winkler, W., Schilling,
R. and Danzmann, K., “An experimental demonstration of dual recycling on a suspended
interferometer”, Phys. Rev. Lett., 81, 5493–5496, (1998). [DOI].
|
|
41 |
Heng, I.S., Blair, D.G., Ivanov, E.N. and Tobar, M.E., “Long term operation of a niobium
resonant bar gravitational wave antenna”, Phys. Lett. A, 218, 190–196, (1996). [DOI].
|
|
42 |
Hough, J., “Prospects for Gravitational Wave Detection with Laser Interferometer Detectors”,
in Blair, D.G. and Buckingham, M.J., eds., The Fifth Marcel Grossmann Meeting on recent
developments in theoretical and experimental general relativity, gravitation and relativistic field
theories, Part A, Proceedings of the meeting held at The University of Western Australia, 8 – 13
August 1988, pp. 265–282, (World Scientific, Singapore; River Edge, 1989).
|
|
43 |
Hough, J. and Strain, K.A., personal communication, (1999).
|
|
44 |
Hough, J. et al., “The stabilisation of lasers for interferometric gravitational wave detectors”,
in Blair, D., ed., The Detection of Gravitational Waves, pp. 329–351, (Cambridge University
Press, Cambridge; New York, 1991). [Google Books].
|
|
45 |
Hough, J. et al., “GEO 600: Current Status and Some Aspects of the Design”, in Tsubono,
K., Fujimoto, M.K. and Kuroda, K., eds., Gravitational Wave Detection, Proceedings of the
TAMA International Workshop, held at National Women’s Education Centre, Saitama, Japan
on November 12 – 14, 1996, Frontiers Science Series, 20, pp. 175–182, (Universal Academy
Press, Tokyo, 1997).
|
|
46 |
Hough, J. (For the LISA Science Team), “LISA - The Interferometer”, in Wilson, A., ed.,
Fundamental Physics in Space, Proceedings of the Alpbach Summer School 1997, Alpbach,
Tyrol, Austria 22 – 31 July 1997, ESA Conference Proceedings, SP-420, pp. 253–258, (ESA
Publications Division, Noordwijk, 1997).
|
|
47 |
Hughes, S.A. and Thorne, K.S., “Seismic gravity-gradient noise in interferometric
gravitational-wave detectors”, Phys. Rev. D, 58, 122002, 1–27, (1998).
|
|
48 |
Hulse, R.A., “The discovery of the binary pulsar”, Rev. Mod. Phys., 66, 699–710, (1994).
|
|
49 |
Ju, L. and Blair, D.G., “Low Resonant-Frequency Cantilever Spring Vibration Isolator for
Gravitational-Wave Detectors”, Rev. Sci. Instrum., 65, 3482–3488, (1994). [DOI].
|
|
50 |
Ju, L., Notcutt, M., Blair, D.G., Bondu, F. and Zhao, C.N., “Sapphire beamsplitters and test
masses for advanced laser interferometric gravitational wave detectors”, Phys. Lett. A, 218,
197–206, (1996). [DOI].
|
|
51 |
Kane, T.J., “Intensity noise in diode-pumped single-frequency Nd:YAG lasers and its control
by electronic feedback”, IEEE Photon. Technol. Lett., 2(4), 244–245, (1990). [DOI].
|
|
52 |
Kane, T.J. and Byer, R.L., “Monolithic, unidirectional single-mode Nd:YAG ring laser”, Opt.
Lett., 10(2), 65–67, (1985). [DOI].
|
|
53 |
Kerr, G.A. and Hough, J., “Coherent addition of laser oscillators for use in gravitational wave
antenna”, Appl. Phys. B, 49, 491–495, (1989). [DOI].
|
|
54 |
Kogelnik, H. and Li, T., “Laser Beams and Resonators”, Proc. IEEE, 54, 1312–1329, (1966).
|
|
55 |
Levin, Y., “Internal thermal noise in the LIGO test masses: A direct approach”, Phys. Rev. D,
57, 659–663, (1998). [DOI], [gr-qc/9707013].
|
|
56 |
“LIGO Laboratory Home Page”, project homepage, California Institute of Technology. URL
(accessed 15 January 2000):
http://www.ligo.caltech.edu/.
|
|
57 |
“LISA Home Page (ESA)”, project homepage, European Space Agency. URL (accessed 25 May
2009):
http://sci.esa.int/home/lisa.
|
|
58 |
“LISA Home Page (NASA)”, project homepage, Jet Propulsion Laboratory/NASA. URL
(accessed 15 January 2000):
http://lisa.jpl.nasa.gov/.
|
|
59 |
Losurdo, G. et al., “Active Control Hierarchy in VIRGO Superattenuator: The Role of the
Inverted Pendulum”, in Coccia, E., Veneziano, G. and Pizzella, G., eds., Second Edoardo
Amaldi Conference on Gravitational Waves, Proceedings of the conference, held at CERN,
Switzerland, 1 – 4 July, 1997, Edoardo Amaldi Foundation Series, 4, pp. 334–338, (World
Scientific, Singapore; River Edge, 1998).
|
|
60 |
Loudon, R., “Quantum limit on the Michelson interferometer used for gravitational-wave
detection”, Phys. Rev. Lett., 47, 815–818, (1981). [DOI].
|
|
61 |
Lunin, B.S., Torbin, S.N., Danchevskaya, M.N. and Batov, I.V., “Influence of the Damaged
Surface Layer on the Q of Fused Silica Resonators”, Moscow Univ. Chem. Bull., 35(2), 24–28,
(1994).
|
|
62 |
McNamara, P.W., Ward, H., Hough, J. and Robertson, D.I., “Laser frequency stabilization
for spaceborne gravitational wave detectors”, Class. Quantum Grav., 14, 1543–1547, (1997).
[DOI].
|
|
63 |
Meers, B.J., Some aspects of the development of an optically sensed gravitational-wave detector,
Ph.D. Thesis, (University of Glasgow, Glasgow, 1983).
|
|
64 |
Meers, B.J., “Recycling in laser-interferometric gravitational-wave detectors”, Phys. Rev. D,
38, 2317–2326, (1988). [DOI].
|
|
65 |
Meshkov, S., ed., Gravitational Waves, Sources and Detectors, Third Edoardo Amaldi
Conference, Pasadena, California, 12 – 16 July, 1999, AIP Conference Proceedings, 523,
(American Institute of Physics, Melville, 2000).
|
|
66 |
Mizuno, E., Kawashima, N., Miyoke, S., Heflin, E.G., Wada, K., Naito, W., Nagano, S. and
Arakawa, K., “Effort of Stable Operation by Noise Rreduction of 100m DL Laser Iinterferometer
[TENKO-100] for Gravitational Wave Detection”, in Ciufolini, I. and Fidecaro, F., eds.,
Gravitational Waves: Sources and Detectors, Proceedings of the International Conference,
Cascina (Pisa), 19 – 23 March 1996, Edoardo Amaldi Foundation Series, 2, pp. 108–110, (World
Scientific, Singapore; River Edge, 1997).
|
|
67 |
Moss, G.E., Miller, L.R. and Forward, R.L., “Photon-noise-limited laser transducer for
gravitational antenna”, Appl. Optics, 10, 2495, (1971). [DOI].
|
|
68 |
Nabors, C.D., Farinas, A.D., Day, T., Yang, S.T., Gustafson, E.K. and Byer, R.L., “Injection
locking of a 13-W CW Nd:YAG ring laser”, Opt. Lett., 14, 1189–1191, (1989). [DOI].
|
|
69 |
Nowick, A.S. and Berry, B.S., Anelastic Relaxation in Crystalline Solids, Materials Science
Series, 1, (Academic Press, New York, 1972).
|
|
70 |
Pallottino, G.V., “The Resonant Mass Detectors of the Rome Group”, in Coccia, E., Veneziano,
G. and Pizzella, G., eds., Second Edoardo Amaldi Conference on Gravitational Waves,
Proceedings of the conference, held at CERN, Switzerland, 1 – 4 July, 1997, Edoardo Amaldi
Foundation Series, 4, pp. 105–114, (World Scientific, Singapore; River Edge, 1998).
|
|
71 |
Plissi, M.V., Torrie, C.I., Husman, M.E., Robertson, N.A., Strain, K.A., Ward, H., Lück, H.
and Hough, J., “GEO 600 triple pendulum suspension system: Seismic isolation and control”,
Rev. Sci. Instrum., 71, 2539–2545, (2000). [DOI].
|
|
72 |
Plissi, M.V. et al., “Aspects of the suspension system for GEO600”, Rev. Sci. Instrum., 69,
3055–3061, (1998). [DOI].
|
|
73 |
Prodi, G.A. et al., “Initial Operation of the Gravitational Wave Detector AURIGA”, in Coccia,
E., Veneziano, G. and Pizzella, G., eds., Second Edoardo Amaldi Conference on Gravitational
Waves, Proceedings of the conference, held at CERN, Switzerland, 1 – 4 July, 1997, Edoardo
Amaldi Foundation Series, 4, pp. 148–158, (World Scientific, Singapore; River Edge, 1998).
Online version (accessed 2 December 2004):
http://www.auriga.lnl.infn.it/auriga/papers_src/amaldi97_prodi.ps.gz.
|
|
74 |
“Ripples in Spacetime”, online resource, NCSA/University of Illinois, (November 1995). URL
(accessed 15 January 2000):
http://www.ncsa.uiuc.edu/Cyberia/NumRel/GravWaves.html.
|
|
75 |
Robertson, D.I. et al., “The Glasgow 10 m prototype laser interferometric gravitational wave
detector”, Rev. Sci. Instrum., 66(9), 4447–4452, (1995). [DOI].
|
|
76 |
Robertson, N.A., Hoggan, S., Mangan, J.B. and Hough, J., “Intensity stabilisation of an argon
laser using an electro-optic modulator”, Appl. Phys. B, 39, 149–153, (1986). [DOI].
|
|
77 |
Rowan, S., Campbell, A.M., Skeldon, K.D. and Hough, J., “Broadband intensity stabilization
of a diode-pumped monolithic miniature Nd:YAG ring laser”, Phys. Lett. A, 41(6), 1263–1269,
(1994).
|
|
78 |
Rowan, S., Twyford, S.M. and Hough, J., “The design of low loss suspensions for advanced
gravitational wave detectors”, in Coccia, E., Veneziano, G. and Pizzella, G., eds., Second
Edoardo Amaldi Conference on Gravitational Waves, Proceedings of the conference, held at
CERN, Switzerland, 1 – 4 July, 1997, Edoardo Amaldi Foundation Series, 4, pp. 363–369,
(World Scientific, Singapore; River Edge, 1998).
|
|
79 |
Rowan, S., Twyford, S.M., Hough, J., Gwo, D.-H. and Route, R., “Mechanical losses associated
with the technique of hydroxide-catalysis bonding of fused silica”, Phys. Lett. A, 246, 471–478,
(1998). [DOI].
|
|
80 |
Rowan, S., Twyford, S.M., Hutchins, R., Kovalik, J., Logan, J.E., McLaren, A.C., Robertson,
N.A. and Hough, J., “Q factor measurements on prototype fused quartz pendulum suspensions
for use in gravitational wave detectors”, Phys. Lett. A, 233, 303–308, (1997). [DOI].
|
|
81 |
Rowan, S. et al., “Fused Silica Suspensions for Advanced Gravitational Wave Detectors”, in
Kawamura, S. and Mio, N., eds., Gravitational Wave Detection II, Proceedings of the 2nd
TAMA Workshop on Gravitational Wave Detection, held on October 19 – 22, 1999, National
Olympics Memorial Youth Center, Tokyo, Japan, Frontiers Science Series, 32, (Universal
Academy Press, Tokyo, 2000).
|
|
82 |
Rüdiger, A., Schilling, R., Schnupp, L., Winkler, W., Billing, H. and Maischberger, K., “A
mode selector to suppress fluctuations in laser beam geometry”, Opt. Acta, 26(5), 641–658,
(1981).
|
|
83 |
Sandford, M.C.W., ed., First International LISA Symposium, Proceedings of the Symposium,
held at the Rutherford Appleton Laboratory in Chilton, 9 – 12 July 1996, Class. Quantum
Grav., 14(6), (Institute of Physics Publishing, Bristol, 1997).
|
|
84 |
Saulson, P.R., “Terrestrial gravitational noise on a gravitational wave antenna”, Phys. Rev. D,
30, 732–736, (1984).
|
|
85 |
Saulson, P.R., “Thermal noise in mechanical experiments”, Phys. Rev. D, 42, 2437–2445,
(1990).
|
|
86 |
Saulson, P.R., Fundamentals of Interferometric Gravitational Wave Detectors, (World
Scientific, Singapore; River Edge, 1994).
|
|
87 |
Schilling, R., personal communication, (1981).
|
|
88 |
Schutz, B.F., “Determining the nature of the Hubble constant”, Nature, 323, 310–311, (1986).
|
|
89 |
Shine Jr, R.J., Alfrey, A.J. and Byer, R.L., “40-W cw, TEM00-mode, diode-laser-pumped,
Nd:YAG miniature-slab laser”, Opt. Lett., 20(5), 459–461, (1995). [DOI].
|
|
90 |
Shoemaker, D.H., Schilling, R., Schnupp, L., Winkler, W., Maischberger, K. and Rüdiger, A.,
“Noise behavior of the Garching 30-meter prototype gravitational-wave detector”, Phys. Rev.
D, 38(2), 423–432, (1988).
|
|
91 |
Skeldon, K.D., Strain, K.A., Grant, A.I. and Hough, J., “Test of an 18-m-long suspended
modecleaner cavity”, Rev. Sci. Instrum., 67(7), 2443–2448, (1996). [DOI].
|
|
92 |
Spero, R.E., “Prospects for Ground Based Detectors of Low Frequency Gravitational
Radiation”, in Nieto, M.M. et al., ed., Science Underground, Proceedings of the Workshop, Los
Alamos, 1982, number 96 in AIP Conference Proceedings, pp. 347–350, (American Institute
of Physics, Melville, 1983).
|
|
93 |
Startin, W.J., Beilby, M.A. and Saulson, P.R., “Mechanical quality factors of fused silica
resonators”, Rev. Sci. Instrum., 69, 3681–3689, (1998). [DOI].
|
|
94 |
Strain, K.A. and Meers, B.J., “Experimental demonstration of dual recycling for interferometric
gravitational-wave detectors”, Phys. Rev. Lett., 66(11), 1391–1394, (1991). [DOI].
|
|
95 |
“TAMA300: The 300m Laser Interferometer Gravitational Wave Antenna”, project homepage,
National Astronomical Observatory. URL (accessed 15 January 2000):
http://tamago.mtk.nao.ac.jp/.
|
|
96 |
Taylor, J.H., “Binary Pulsars and Relativistic Gravity”, Rev. Mod. Phys., 66, 711–719, (1994).
[DOI].
|
|
97 |
Thorne, K.S., Black Holes and Time Warps: Einstein’s Outrageous Legacy, (W.W. Norton,
New York, 1994).
|
|
98 |
Torrie, C.I. et al., “Suspension system design for the main optics for GEO 600”, in Trân
Than Vân, J., Dumarchez, J., Raynoud, S., Salomon, C., Thorsett, S. and Vinet, J.Y., eds.,
Gravitational Waves and Experimental Gravity, Proceedings of the XXXIVth Rencontres De
Moriond, Les Arcs, France, January 23 – 30, 1999, pp. 235–240, (World Publishers, Hanoi,
Vietnam, 2000).
|
|
99 |
Tsubono, K. et al. (The TAMA Collaboration), “TAMA Project”, in Tsubono, K., Fujimoto,
M.-K. and Kuroda, K., eds., Gravitational Wave Detection, Proceedings of the TAMA
International Workshop held at Saitama, Japan, November 12 – 14, 1996), Frontiers Science
Series, 20, pp. 183–191, (Universal Academy Press, Tokyo, 1997). [ADS].
|
|
100 |
Tulloch, W.M. et al., “Quantum noise in a continuous-wave laser-diode-pumped Nd:YAG linear
optical amplifier”, Opt. Lett., 23, 1852–1854, (1998). [DOI].
|
|
101 |
Tyson, J.A. and Giffard, R.P., “Gravitational-Wave Astronomy”, Annu. Rev. Astron.
Astrophys., 16, 521–554, (1978). [DOI].
|
|
102 |
“Virgo”, project homepage, INFN. URL (accessed 15 January 2000):
http://www.virgo.infn.it/.
|
|
103 |
Vogt, R.E., Drever, R.W.P., Thorne, K.S., Raab, F.J. and Weiss, R., “A Laser Interferometer
Gravitational Wave Observatory (Proposal to the National Science Foundation)”, unknown
format, (1989).
|
|
104 |
Weber, J., “Evidence for Discovery of Gravitational Radiation”, Phys. Rev. Lett., 22,
1320–1324, (1969). [DOI].
|
|
105 |
Weber, J., “Anisotropy and Polarization in the Gravitational-Radiation Experiments”, Phys.
Rev. Lett., 25, 180–184, (1970). [DOI].
|
|
106 |
Weichmann, W., Kane, T.J., Haserot, D., Adams, F., Truong, G. and Kmetec, J.D., “20-W
diode-pumped single-frequency Nd:YAG MOPA for the Laser Interferometer Gravitational
Wave Observatory”, in Conference on Lasers and Electro-Optics (CLEO ’98), Summaries of
papers presented at the conference, held at the Moscone Center, San Francisco, May 3 – 8,
1998, OSA Technical Digest Series, 6, pp. 432–433, (Optical Society of America, Washington,
1998).
|
|
107 |
Weiss, R., Electromagnetically Coupled Broadband Gravitational Antenna, Quart. Progr. Rep.,
105:54–76, (Research Lab. Electron., MIT, Cambridge, 1972).
|
|
108 |
Will, C.M., Theory and Experiment in Gravitational Physics, (Cambridge University Press,
Cambridge; New York, 1993), 2nd edition. [Google Books].
|
|
109 |
Willke, B., Uehara, N., Gustafson, E.K., Byer, R.L., King, P.J., Steel, S.U. and Savage Jr,
R.L., “Spatial and temporal filtering of a 10-W Nd:YAG laser with a Fabry-Perot ring-cavity
premode cleaner”, Opt. Lett., 23(21), 1704–1706, (1998). [DOI].
|
|
110 |
Winterflood, J. and Blair, D.G., “Ultra-Low Frequency Pre-Isolation in Three Dimensons”,
in Coccia, E., Veneziano, G. and Pizzella, G., eds., Second Edoardo Amaldi Conference on
Gravitational Waves, Proceedings of the conference, held at CERN, Switzerland, 1 – 4 July,
1997, Edoardo Amaldi Foundation Series, 4, pp. 485–489, (World Scientific, Singapore; River
Edge, 1998).
|
