R. Weiss
Massachusetts Institute of Technology
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Science | 1992
Alex Abramovici; W. E. Althouse; Ronald W. P. Drever; Yekta Gursel; S. Kawamura; F. J. Raab; D. H. Shoemaker; L. Sievers; Robert E. Spero; Kip S. Thorne; R. E. Vogt; R. Weiss; S. E. Whitcomb; M. E. Zucker
The goal of the Laser Interferometer Gravitational-Wave Observatory (LIGO) Project is to detect and study astrophysical gravitational waves and use data from them for research in physics and astronomy. LIGO will support studies concerning the nature and nonlinear dynamics of gravity, the structures of black holes, and the equation of state of nuclear matter. It will also measure the masses, birth rates, collisions, and distributions of black holes and neutron stars in the universe and probe the cores of supernovae and the very early universe. The technology for LIGO has been developed during the past 20 years. Construction will begin in 1992, and under the present schedule, LIGOs gravitational-wave searches will begin in 1998.
Physics Letters A | 1996
Alex Abramovici; W. E. Althouse; Jordan Camp; D. Durance; J. A. Giaime; A. Gillespie; S. Kawamura; A. Kuhnert; T. Lyons; F. J. Raab; R. L. Savage; Deirdre Shoemaker; L. Sievers; Robert E. Spero; R. E. Vogt; R. Weiss; S. E. Whitcomb; M. E. Zucker
Sensitivity enhancements in the laser interferometer gravitational wave observatory (LIGO) projects 40 m interferometer have been achieved through two major instrumental improvements. Improved vibration isolation has reduced the noise due to ground motion. New test masses with less mechanical dissipation were installed to lower the thermal noise associated with mirror vibrations. The minimum interferometer noise (square root of the spectral density of apparent differential displacement) reached 3 x 10^(-19) m/Hz^(1/2) near 450 Hz.
The Astrophysical Journal | 2000
Sylvio Klose; Bringfried Stecklum; N. Masetti; E. Pian; E. Palazzi; Arne A. Henden; Dieter H. Hartmann; O. Fischer; J. Gorosabel; C. Sanchez-Fernandez; D. J. Butler; Thomas Ott; Stefan Hippler; Markus E. Kasper; R. Weiss; A. J. Castro-Tirado; J. Greiner; C. Bartolini; A. Guarnieri; A. Piccioni; Stefano Benetti; F. Ghinassi; A. Maggazzuacute; K. Hurley; T. L. Cline; J. Trombka; Timothy P. McClanahan; R. Starr; John O. Goldsten; R. Gold
We report near-infrared and optical follow-up observations of the afterglow of the GRB 000418 start- ing 2.5 days after the occurrence of the burst and extending over nearly 7 weeks. GRB 000418 represents the second case for which the afterglow was initially identi—ed by observations in the near-infrared. During the —rst 10 days its R-band afterglow was well characterized by a single power-law decay with a slope of 0.86. However, at later times the temporal evolution of the afterglow —attens with respect to a simple power-law decay. Attributing this to an underlying host galaxy, we —nd its magnitude to be R 23.9 and an intrinsic afterglow decay slope of 1.22. The afterglow was very red with R(K B 4 mag. The observations can be explained by an adiabatic, spherical —reball solution and a heavy reddening due to dust extinction in the host galaxy. This supports the picture that (long) bursts are associated with events in star-forming regions. Subject heading: gamma rays: bursts
web science | 2000
Sylvio Klose; Bringfried Stecklum; N. Masetti; E. Pian; E. Palazzi; Arne A. Henden; Dieter H. Hartmann; O. Fischer; J. Gorosabel; C. Sanchez-Fernandez; D. J. Butler; Thomas Ott; Stefan Hippler; Markus Kasper; R. Weiss; Alberto J. Castro-Tirado; J. Greiner; Corrado Bartolini; A. Guarnieri; Adalberto Piccioni; Stefano Benetti; F. Ghinassi; A. Magazzù; Kevin C. Hurley; T. L. Cline; J. Trombka; Timothy P. McClanahan; R. Starr; J Goldstein; R. Gold
We report near-infrared and optical follow-up observations of the afterglow of the GRB 000418 start- ing 2.5 days after the occurrence of the burst and extending over nearly 7 weeks. GRB 000418 represents the second case for which the afterglow was initially identi—ed by observations in the near-infrared. During the —rst 10 days its R-band afterglow was well characterized by a single power-law decay with a slope of 0.86. However, at later times the temporal evolution of the afterglow —attens with respect to a simple power-law decay. Attributing this to an underlying host galaxy, we —nd its magnitude to be R 23.9 and an intrinsic afterglow decay slope of 1.22. The afterglow was very red with R(K B 4 mag. The observations can be explained by an adiabatic, spherical —reball solution and a heavy reddening due to dust extinction in the host galaxy. This supports the picture that (long) bursts are associated with events in star-forming regions. Subject heading: gamma rays: bursts
arXiv: Astrophysics | 2000
Sylvio Klose; Bringfried Stecklum; N. Masetti; E. Pian; E. Palazzi; Arne A. Henden; Dieter H. Hartmann; O. Fischer; J. Gorosabel; C. Sanchez-Fernandez; D. J. Butler; Th. Ott; Stefan Hippler; Markus Kasper; R. Weiss; Alberto J. Castro-Tirado; J. Greiner; Corrado Bartolini; Adriano Guarnieri; Adalberto Piccioni; Stefano Benetti; F. Ghinassi; A. Magazzù; Kevin C. Hurley; T. L. Cline; J. Trombka; Timothy P. McClanahan; R. Starr; John O. Goldsten; R. Gold
We report near-infrared and optical follow-up observations of the afterglow of the GRB 000418 start- ing 2.5 days after the occurrence of the burst and extending over nearly 7 weeks. GRB 000418 represents the second case for which the afterglow was initially identi—ed by observations in the near-infrared. During the —rst 10 days its R-band afterglow was well characterized by a single power-law decay with a slope of 0.86. However, at later times the temporal evolution of the afterglow —attens with respect to a simple power-law decay. Attributing this to an underlying host galaxy, we —nd its magnitude to be R 23.9 and an intrinsic afterglow decay slope of 1.22. The afterglow was very red with R(K B 4 mag. The observations can be explained by an adiabatic, spherical —reball solution and a heavy reddening due to dust extinction in the host galaxy. This supports the picture that (long) bursts are associated with events in star-forming regions. Subject heading: gamma rays: bursts
APS | 2011
L. Barsotti; L. Blackburn; T. P. Bodiya; Jianshu Cao; T. R. Corbitt; F. Donovan; I. Duke; M. Evans; S. Foley; P. Fritschel; G. M. Harry; Barbara Hughey; E. Katsavounidis; M. MacInnis; J. Markowitz; K. Mason; F. Matichard; N. Mavalvala; R. Mittleman; P. Sarin; B. Shapiro; D. H. Shoemaker; N. D. Smith; Andrew J. Stein; Leo C. Stein; S. J. Waldman; R. Weiss; C. C. Wipf; M. E. Zucker
APS | 2010
R. Weiss; M. E. Zucker; C. C. Wipf; S. J. Waldman; Leo C. Stein; Andrew J. Stein; Nicolas de Mateo Smith; D. H. Shoemaker; B. Shapiro; P. Sarin; R. Mittleman; N. Mavalvala; F. Matichard; K. Mason; J. Markowitz; M. MacInnis; E. Katsavounidis; B. Hughey; G. M. Harry; P. Fritschel; S. Foley; M. Evans; I. Duke; F. Donovan; T. R. Corbitt; Junwei Cao; T. P. Bodiya; L. Blackburn; L. Barsotti
APS | 2009
M. E. Zucker; C. C. Wipf; R. Weiss; S. J. Waldman; Leo C. Stein; Andrew J. Stein; Nicolas de Mateo Smith; D. H. Shoemaker; B. Shapiro; P. Sarin; L. Ruet; R. Mittleman; K. Mason; J. Markowitz; M. MacInnis; E. Katsavounidis; B. Hughey; G. M. Harry; F. Grimaldi; Keisuke Goda; P. Fritschel; S. Foley; M. Evans; I. Duke; F. Donovan; T. R. Corbitt; Junwei Cao; G. Brunet; T. P. Bodiya; L. Blackburn
APS | 2009
M. E. Zucker; C. C. Wipf; R. Weiss; S. J. Waldman; Leo C. Stein; Andrew J. Stein; Nicolas de Mateo Smith; D. H. Shoemaker; B. Shapiro; P. Sarin; R. Mittleman; K. Mason; J. Markowitz; M. MacInnis; E. Katsavounidis; B. Hughey; G. M. Harry; F. Grimaldi; Keisuke Goda; P. Fritschel; S. Foley; M. Evans; I. Duke; F. Donovan; T. R. Corbitt; Junwei Cao; G. Brunet; T. P. Bodiya; L. Blackburn; L. Barsotti
APS | 2009
M. E. Zucker; C. C. Wipf; R. Weiss; S. J. Waldman; Leo C. Stein; Andrew J. Stein; Nicolas de Mateo Smith; D. H. Shoemaker; B. Shapiro; P. Sarin; R. Mittleman; N. Mavalvala; K. Mason; J. Markowitz; M. MacInnis; E. Katsavounidis; B. Hughey; G. M. Harry; F. Grimaldi; Keisuke Goda; P. Fritschel; S. Foley; M. Evans; I. Duke; F. Donovan; T. R. Corbitt; Junwei Cao; G. Brunet; T. P. Bodiya; L. Blackburn
