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  • Kuhnert, A. C.; Abramovici, A.; Spero, R.; Shaddock, D.; Schumaker, B. (2002-08-22)
    We describe a laboratory test of TDI with an unequal arm interferometer. The intent is to ascertain the performance limitations and proof-of-concept for 6 orders of magnitude frequency noise suppression.
  • Folkner, W. M. (1999-04-29)
  • Folkner, W. M. (1998-10-01)
    The Laser Interferometer Space Antenna (LISA) will be capable of detecting gravitational waves with frequencies from 0.1 mHz to 1 Hz by using laser interferometers to monitor changes in the distances between test masses ...
  • Folkner, W. M.; Border, J. S.; Stebbins, R. W.; Bender, P. L. (1996-07-09)
  • Folkner, W. M.; Hechler, F.; Sweetser, T. H.; Vincent, M. A.; Bender, P. L. (1996)
    The Laser Interferometer Space Antenna is a space mission designed to detect gravitational waves in the frequency range from below 0.0001 Hz to 1 Hz by measuring changes in the distance between spacecraft separated by ...
  • Marcin, M. R. (2002-08-22)
    The LISA mission will form the equivalent of a Michelson interferometric beat signal from the 1064nm laser beams traversing the inter-spacecraft arms. The design gravitational wave sensitivity requires measurement of round ...
  • Krolak, A.; Tinto, M.; Estabrook, F. B.; Armstrong, J. W. (2002-12-17)
    We present a procedure for computing LISA's sensitivity to gravitational radiation.
  • Ware, Brent (Pasadena, CA: Jet Propulsion Laboratory, National Aeronautics and Space Administration, 2020, 2020-01-04)
  • Harb, Charles C.; Chiao, Meng P.; Gromov, Konstantin (Pasadena, CA : Jet Propulsion Laboratory, National Aeronautics and Space Administration, 2003, 2003-07-06)
    The Laser Interferometer Space Antenna (LISA) project requires technology developments on many fronts. A physical understanding of the LISA subsystems is a precursor to tacjling the requirements needed to ensure a successful ...
  • Harb, C. C. (2003-07-06)
  • Harb, C. C. (2003-07-06)
  • Francis, Samuel P; Roberts, Max; Spero, Robert; McKenzie, Kirk; Ware, Brent (Pasadena, CA: Jet Propulsion Laboratory, National Aeronautics and Space Administration, 2021, 2021-01-28)
  • Folkner, W. M.; Hellings, R. W.; Maleki, L.; Bender, P.; Faller, J.; Stebbins, R.; Danzmann, K.; Cornelisse, J. W.; Jafry, Y.; Reinhard, R.; Brillet, A.; Barillet, R.; Ciufolini, I.; Hough, J.; Robertson, D.; Ward, H.; Lobo, A.; Sandford, M.; Gray, P.; Schutz, B.; Touboul, P.; Cavaliere, A.; Sumner, T.; Polnarev, A.; Barlier, F.; Rudiger, A.; Schilling, R.; Winkler, W.; Tunnermann, A. (1995--Janu)
    The capability of observing gravitational radiation over a wide range of frequencies will open up major new opportunities in fundamental physics and astronomy. The Laser Interferometer Space Antenna (LISA) will be able to ...
  • Gat, E. (2000-04)
    In a recent study, Prechelt compared the relative performance of Java and C++ in terms of execution time and memory utilization. Unlike many benchmark studies, Prechelt compared mulitple implementations of the same task ...
  • Fisher, Diane K. (Pasadena, CA : Jet Propulsion Laboratory, National Aeronautics and Space Administration, 2003., 2003)
  • Menzies, Robert T.; Tratt, David M.; Hunt, William H. (1997-10)
    The dependence of sea surface directional reflectance on surface wind speed from space-based lidar measurements of sea surface backscatter. In particular lidar measurements in the nidir angle range from 10-30 degrees appear ...
  • Smart, M. C.; Ratnakumar, B. V.; West, W. C.; Brandon, E. J. (Pasadena, CA : Jet Propulsion Laboratory, National Aeronautics and Space Administration, 2012., 2012-03-15)
  • Ratnakumar, B. V.; Smart, M. C.; Kindler, A.; Frank, H.; Ewell, R.; Surampudi, S. (2002)
    This paper describes the selection criteria, design and performance of three battery systems on 2003 MER mission.