Author, Subjects, Keywords

Cited Author

 
 
   » By Author or Editor
 » Browse Author by Alphabet
 » By Journal
 » By Subjects
 » Malaysian Journals
 » By Type
 » By Year
 » By Latest Additions
 
 
   » By Author
 » Top 20 Authors
 » Top 20 Article
 » Top Journal Cited
 » Top Article Cited
 » Journal Citation Statistics
 » Usage Since Sept 2007


 
 
 

Login | Create Account

Gravitational Wave Detection in the Laboratory

Chen, Y.T., and Kawashima, N., and Othman M., and Chia, S.P., and Karim M., and Sanugi, B., and Lim, B.H., and Chong, K.K., (1998) Gravitational Wave Detection in the Laboratory. Jurnal Fizik Malaysia, 19 (3). pp. 69-82. ISSN 0128-0333

Full text not available from this repository.

Affiliations

Universiti Teknologi Malaysia. Faculty of Electrical Engineering["lib/metafield:join_corp_creators" not defined]Kinki University. Dept. of Physics["lib/metafield:join_corp_creators" not defined]Universiti Kebangsaan Malaysia. Faculty of Science. Dept. of Physics["lib/metafield:join_corp_creators" not defined]Universiti Malaya. Faculty of Science. Dept. of Physics["lib/metafield:join_corp_creators" not defined]St. John Fisher College. Dept. of Physics

Abstract

After reviewing the research work of gravitational wave detection in the laboratory, particularly the long base laser interferometer detectors, the authors will report on the recent progress of gravitational wave detection using laser interferometer (Tianyin-100) in Malaysia. The authors will also outline the brief plan for Tianyin-500 in the future as a full-scale observatory competitive to other projects such as Ligo, Geo600, etc.

Item Type:Journal
Additional Information:This note was added by the search_and_modify.pl script.
Keywords:gravitational wave
Subjects:Q Science, Computer Science
T Technology, Engineering
ID Code:3468

1. A. Abramovici, W. E. Althouse, R. W. P. Drever, Y. Gursel, S. Kawamura, F. J. Raab, D. Shoemaker, L. Sievers, R. E. Spero, K. S. Thorne, R. E. Vogt, R. Weiss, S. E. Whitcomb and M. E. Zucker, Science 256, 325 (1992).

2. A. Abramovici, W. E. Althouse, J. Camp, D. Durance, J. A. Giaime, A. Gillespie, S. Kawamura, A. Kuhnert, T. Lyons, F. J. Raab, R. L. Savage, Jr., D. Shoemaker, L. Sievers, R. E. Spero, R. E. Vogt, R. Weiss, S. E. Whitcomb and M. E. Zucker, Phys. Lett. A 218, 157 (1996).

3. M. A. Barton and K. Kuroda, Rev. Sci. Instrum. 65, 3775 (1994).

4. M. A. Barton, N. Kanda and K. Kuroda, Rev. Sci. Instrum. 67, 3994 (1996).

5. D. G. Blair, Phys. B 197,28 (1994).

6. D. G. Blair, L. Ju, M. Notcutt, Rev. Sci. Inst. 64, 1899 (1993).

7. V. B. Braginsky, V. P. Mitrofanov and O. A. Okhrimenko, JETP Letters 55, 432 (1992).

8. G. Cagnoli, L. Gammaitoni, J. Kovalik, F. Marchesoni and M. Punturo, Phys. Lett. A 213, 245 (1996).

9. B. Caron et al, Proceedings of the 6th Pisa Meeting on Advanced Detectors, La Biodola, Isola d’Elba, Italy, 22 - 28 May 1994, edited by E. Bertolucci, F. Cervelli and A. Scribano, Nucl. Instrum. Methods Phys. Res., A : 360 (1-2) 375 (1995).

10. Y. T. Chen and A. Cook, Gravitational Experiments in The Laboratory, Cambridge University Press (1993) p268.

11. Y.T. Chen, Use of Single-Mode Optical Fibre in The Stabilisation of Laser Frequency, Appl. Opt. 1 June, 2017-202 1, (1989).

12. K. Danzmann et al, Proc. of the First Edoardo Amaldi Conference on Gravitational Wave Experiments ed. E. Coccia, G. Pizella and F. Ronga, World Scientific, Singapore (1995) p100.

13. R. W. P. Drever, J. L. Hall, F. V. Kowalski, J. Hough, G. M. Ford, A. J. Munley and H. Ward, Appl. Phys. B 31, 97 (1983).

14. A. Einstein, Investigations on the Theory of the Brownian Movement (Dover, New York) (1956).

15. G. I. Gonzalez and P. R. Saulson, J. Acoust. Soc. Am. 96, 207 (1994).

16. Gravitational Wave Detection, Proceedings of the TAMA International Workshop on Gravitational Wave Detection, Saitama, Japan, November 12-14, 1996, edited by K. Tsubono, M. -K. Fujimoto and K. Kuroda, Universal Academy Press, Japan, (1997) p.402.

17. Y. Hefetz and N. Mavalvala, Proceedings of the Seventh Marcel Grossmann Meeting on General Relativity. World Scientific, Singapore (1994).

18. N. Kanda, M. A. Barton and K. Kuroda, Rev. Sci. Instrum. 65, 3780 (1994).

19. S. Kawamura, A. Abramovici and M. Zucker, Rev. Sci. Inst. 68 (1), 223 (1997).

20. LIGO Team, The Construction, Operation and Supporting Research and Development of A Laser Interferometer Gravitational-Wave Observatory. Proposal to the National Science Foundation, California Institute of Technology (1989).

21. LIGO Team, Installation of New Test Masses in LIGO 40 Meter Interferometer, LIGO Technical Report TR94-7, (November 30, 1994).

22. LIGO Science Requirements Document, Specification LIGO-E950018 (LIGO Project, California Institute of Technology and Massachusetts Institute of Technology) (1995).

23. W. T. Ni, ASTROD Mission Concept and Measurement of the Temporal Variation of the Gravitation Constant, Proceedings of the Pacific Conference on Gravitation and Cosmology, Seoul, Korea, February 1-6 1996, in press (World Scientific, Singapore) (1997).

24. T. M. Niebauer, R. Schilling, K. Danzmann, A. Rudiger and W. Winkler, Phys. Rev. A 43, 5022 (1991).

25. W. T. Ni, M. C. W. Sandford, C. Veillet, A. -M. Wu, P. Fridelance, E. Samain, G. Spalding and X. Xu, Astrodynamical Space Test of Relativity Using Optical Devices, presented to 31st COSPAR Scientific Assembly (Birmingham, United Kingdom) (14-21 July 1996).

26. Pisa group: Seismic Isolation: The use of Blade Springs, Virgo Note PJT94-008 (1994).

27. T. J. Quinn, C. C. Speake and L. M. Brown, Phil. Mag. A 65(1992)261; H Scher, M. F. Shlesinger and J. T. Bendler, Physics Today 44, 26 (Jan 1991).

28. S. Rowan, S. Twyford, R. Hutchins and J. Hough, Investigations Into The Effects of Electrostatic Charge on The Q Factor of a Prototype Fused Silica Suspension for Use in Gravitational Wave Detectors, Class. Quantum Gray. 14, 1537-1541 (1997).

29. S. Rowan, R. Hutchins, A. McLaren, N. A. Robertson, S. M. Twyford, and J. Hough, The Quality Factor of Natural Fused Quartz Ribbons Over a Frequency Range from 6 To 160 Hz, Phys. Lett. A 227, 153-158 (1997).

30. S. Rowan, S. M. Twyford, R. Hutchins, J. Kovalik, J. E. Logan, A. C. McLaren, N. A. Robertson and J. Hough, Q Factor Measurements on Prototype Fused Silica Pendulum Suspensions for Use in Gravitational Wave Detectors, Phys. Lett. A 233, 303-308 (1997).

31. S. Rowan, S. M. Twyford, J. Hough, D. -H. Gwo and R. Route, Mechanical Losses Associated With The Technique of Hydroxide-Catalysis Bonding of Fused Silica, submitted to Phys. Lett. A (May 1998).

32. P. R. Saulson, Phys. Rev. D42, 2437 (1990).

33. P. R. Saulson, Fundamentals of Interferometric Gravitational Wave Detectors, World Scientific, Singapore (1994) p299.

34. B. F. Schutz, Class. Quantum Gray. 13, A219 (1996).

35. D. Shoemaker, R. Schilling, L. Schnupp, W. Winkler, K. Maischberger and A. Rudiger, Phys. Rev. D 38, 423 (1988).

36. R. Takahashi, Proceedings of the TAMA Workshop on Gravitational Wave Detection (Tokyo, Universal Academy Press) (1997).

37. C. T. Taylor, M. Notcutt and D. G. Blair, Rev. Sci. Inst. 66, 955 (1995).

38. K. S. Thorne, Gravitational Waves, p. 160 in Paticle and Nuclear Astrophysics and Cosmology in the Next Millennium, ed. E. W. Kolb and R. D. Peccei (World Scientific, Singapore) (1995).

39. M. E. Tobar, Phys. D: Appl. Phys. 28, 1728 (1995).

40. Virgo: Proposal for the Construction of A Large Interferometric Detector of Gravitational Waves, CNRS-INFN (May 1989).

41. Virgo: Final Conceptual Design, CNRS-INFN (March 1992).

42. K. Yamamoto, Proceedings of the TAMA Workshop on Gravitational Wave Detection (Tokyo, Universal Academy Press) (1997).

Repository Staff Only: item control page
 
 
 
 
 
 
© Copyright 2007 MyAIS Faculty of Computer Science and Information Technology, University of Malaya – All Rights Reserved. Malaysian Abstracting and Indexing System is powered by EPrints 3 which is developed by the School of Electronics and Computer Science at the University of Southampton. More information and software credits.