This is a list of papers, in reverse chronological order, that cite (and presumably use) SPOTL. Additions to the list are of course welcome.
Sun, H. P., D. Bernard, H. Z. Xu, V. Leslie, J. Q. Xu, and J. C. Zhou (2005). Adaptability of the ocean and earth tidal models based on global observations of the superconducting gravimeters, Science in China Series D, 48, 1859-1869.
King, M. A., and L. Padman (2005). Accuracy assessment of ocean tide models around Antarctica, Geophys. Res. Lett., 32, L23608.
King, M. A., N. T. Penna, P. J. Clarke, and E. C. King (2005). Validation of ocean tide models around Antarctica using onshore GPS and gravity data, J. Geophys. Res., 110, B08401.
Bos, M. S., and T. F. Baker (2005). An estimate of the errors in gravity ocean tide loading computations, J. Geod., 79, 50-63.
Schreiber, K. U., A. Velikoseltsev, M. Rothacher, T. Klugel, G. E. Stedman, and D. L. Wiltshire (2004). Direct measurement of diurnal polar motion by ring laser gyroscopes, J. Geophys. Res., 109, B06405.
Allinson, C. R., P. J. Clarke, S. J. Edwards, M. A. King, T. F. Baker, and P. R. Cruddace (2004). Stability of direct GPS estimates of ocean tide loading, Geophys. Res. Lett., 31, L15603.
Sasagawa, G. S., W. Crawford, O. Eiken, S. Nooner, T. Stenvold, and M. A. Zumberge (2003). A new sea-floor gravimeter, Geophysics, 68, 544-553.
Sun, H. P., J. Q. Xu, and B. Ducarme (2003). Experimental earth tidal models in considering nearly diurnal free wobble of the Earth’s liquid core, Chinese Science Bull., 48, 935-940.
Petrov, L., and C. P. Ma (2003). Study of harmonic site position variations determined by very long baseline interferometry, J. Geophys. Res., 108, 2190 .
Boy, J. P., M. Llubes, J. Hinderer, and N. Florsch (2003). A comparison of tidal ocean loading models using superconducting gravimeter data, J. Geophys. Res., 108, 2193 .
Schreiber, K. U., T. Klugel, and G. E. Stedman (2003). Earth tide and tilt detection by a ring laser gyroscope, J. Geophys. Res., 108, 2132 .
King, M., and S. Aoki (2003). Tidal observations on floating ice using a single GPS receiver, Geophys. Res. Lett., 30, 1138 .
Gabalda, G., S. Bonvalot, and R. Hipkin (2003). CG3TOOL: an interactive computer program to process Scintrex CG-3/3M gravity data for high-resolution applications, Comput. Geosci., 29, 155-171.
Vey, S., E. Calais, M. Llubes, N. Florsch, G. Woppelmann, J. Hinderer, M. Amalviet, M. F. Lalancette, B. Simon, F. Duquenne, and J. S. Haase (2002). GPS measurements of ocean loading and its impact on zenith tropospheric delay estimates: a case study in Brittany, France, J. Geod., 76, 419-427.
Sella, G. F., T. H. Dixon, and A. L. Mao (2002). REVEL: A model for Recent plate velocities from space geodesy, J. Geophys. Res., 107, 2081 .
Zwally, H. J., B. Schutz, W. Abdalati, J. Abshire, C. Bentley, A. Brenner, J. Bufton, J. Dezio, D. Hancock, D. Harding, T. Herring, B. Minster, K. Quinn, S. Palm, J. Spinhirne, and R. Thomas (2002). ICESat’s laser measurements of polar ice, atmosphere, ocean, and land, J. Geodyn., 34, 405-445.
Goring, D. G., and R. A. Walters (2002). Ocean-tide loading and earth tides around New Zealand, N. Z. J. Mar. Freshwat. Res., 36, 299-309.
Chadwick, W. W., and M. Stapp (2002). A deep-sea observatory experiment using acoustic extensometers: Precise horizontal distance measurements across a mid-ocean ridge, Ieee J. Ocean. Eng., 27, 193-201.
Wilcock, W. S. D. (2001). Tidal triggering of micro earthquakes on the Juan de Fuca Ridge, Geophys. Res. Lett., 28, 3999-4002.
Stutzmann, E., J. P. Montagner, A. Sebai, W. C. Crawford, J. L. Thirot, P. Tarits, D. Stakes, B. Romanowicz, J. F. Karczewski, J. C. Koenig, J. Savary, D. Neuhauser, and S. Etchemendy (2001). MOISE: A prototype multiparameter ocean-bottom station, Bull. Seismol. Soc. Amer., 91, 885-892.
Chadwick, W. W., D. S. Scheirer, R. W. Embley, and H. P. Johnson (2001). High-resolution bathymetric surveys using scanning sonars: Lava flow morphology, hydrothermal vents, and geologic structure at recent eruption sites on the Juan de Fuca Ridge, J. Geophys. Res., 106, 16075-16099.
Foreman, M. G. G., W. R. Crawford, J. Y. Cherniawsky, R. F. Henry, and M. R. Tarbotton (2000). A high-resolution assimilating tidal model for the northeast Pacific Ocean, J. Geophys. Res., 105, 28629-28651.
Bos, M. S., T. F. Baker, F. H. Lyard, W. E. Zurn, and P. A. Rydelek (2000). Long-period lunar Earth tides at the geographic South Pole and recent models of ocean tides, Geophys. J. Int., 143, 490-494.
Crawford, W. C., and S. C. Webb (2000). Identifying and removing tilt noise from low-frequency (< 0.1 Hz) seafloor vertical seismic data, Bull. Seismol. Soc. Amer., 90, 952-963.
Dragert, H., T. S. James, and A. Lambert (2000). Ocean loading corrections for continuous GPS: A case study at the Canadian coastal site Holberg, Geophys. Res. Lett., 27, 2045-2048.
Yi, D. H., J. B. Minster, and C. R. Bentley (2000). The effect of ocean tidal loading on satellite altimetry over Antarctica, Antarctic Science, 12, 119-124.
Goodkind, J. M. (1999). The superconducting gravimeter, Rev. Sci. Instrum., 70, 4131-4152.
Bilham, R., R. Bendick, K. Larson, P. Mohr, J. Braun, S. Tesfaye, and L. Asfaw (1999). Secular and tidal strain across the main Ethiopian rift, Geophys. Res. Lett., 26, 2789-2792.
Ballu, V., J. A. Hildebrand, and E. L. Canuteson (1999). The density structure associated with oceanic crustal rifting at the Hess Deep: a seafloor and sea-surface gravity study, Earth Planetary Science Lett., 171, 21-34.
Ballu, V. S., J. A. Hildebrand, and S. C. Webb (1998). Seafloor gravity evidence for hydrothermal alteration of the sediments in Middle Valley, Juan de Fuca Ridge, Marine Geology, 150, 99-111.
Vidale, J. E., D. C. Agnew, M. J. S. Johnston, and D. H. Oppenheimer (1998). Absence of earthquake correlation with Earth tides: An indication of high preseismic fault stress rate, J. Geophys. Res., 103, 24567-24572.