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Source signature measurements of underwater explosives at very high ambient pressures
1.Arons, A. B. (1948). “Secondary pressure pulses due to gas globe oscillation in underwater explosions, II, selection of adiabatic parameters in the theory of oscillation,” J. Acoust. Soc. Am. 20, 277–282.
2.Arons, A. B. (1954). “Underwater explosion shock wave parameters at large distances from the charge,” J. Acoust. Soc. Am. 26, 343–346.
3.Blaik, M. , and Christian, E. A. (1965). “Near-surface measurements of deep explosions. I: Pressure pulses from small charges,” J. Acoust. Soc. Am. 38, 50–56.
4.Christian, E. A. , and Blaik, M. (1965). “Near-surface measurements of deep explosions. II: energy spectra of small charges,” J. Acoust. Soc. Am. 38, 50–56.
5.Christeson, G. L. , Purdy, G. M. , and Fryer, G. J. (1992). “Structure of young upper crust at the East Pacific Rise Near 9°30′N,” Geophys. Res. Lett. 19, 1045–1048.
6.Christeson, G. L. , Purdy, G. M. , and Fryer, G. J. (1994a). “Seismic constraints on shallow crustal emplacement processes at the fast-spreading east Pacific rise,” J. Geophys. Res. 99, 17 95717 973.
7.Christeson, G. L. , Wilcock, W. S. D. , and Purdy, G. M. (1994b). “The shallow attenuation structure of the fast spreading east Pacific rise near 9 30′N,” Geophys. Res. Lett. 21, 321–324.
8.Cole, R. H. (1948). Underwater Explosions (Princeton U. P., Princeton, NJ).
9.Ewing, M. , Crary, A. O. , and Rutherford, M. H. (1937). “Geophysical investigations in the emerged and submerged Atlantic coastal plain. I. Methods and results,” Geol. Soc. Am. Bull. 48, 753–802.
10.Ewing, M. , Worzel, J. L. , Hersey, J. B. , Press, F. , and Hamilton, G. R. (1950). “Seismic refraction measurements in the Atlantic Ocean basin,” Bull. Seismol. Soc. Am. 40, 233–242.
11.Fricke, J. R. , Davis, J. M. , and Reed, D. H. (1985). “A standard quantitative calibration procedure for marine seismic sources,” Geophysics 50, 1525–1532.
12.Friedman, B. (1947). “Theory of underwater explosion bubbles,” Report IMM-NYU 166, Institute for Mathematics and Mechanics, New York University.
13.Gaspin, J., Griffin, T., Peletski, C., Baudler, B., Lipton, L., Collins, J. A., Broda, J., and Purdy, G. M. (1995). Source Signatures of Explosives Under Very High Ambient Pressures: Data Acquisition and Analysis, NSWC Technical Report (unpublished).
14.Harding, A. J. , Kent, G. M. , and Orcutt, J. A. (1993). “A multichannel seismic investigation of upper crustal structure at 9°N on the East Pacific Rise: Implications for crustal accretion,” J. Geophys. Res. 98, 13 92513 944.
15.Hildebrand, J. A. , Dorman, L. M. , Hammer, P. T. C. , Schreiner, A. E. , and Cornuelle, B. D. (1989). “Seismic tomography of Jasper Seamount,” Geophys. Res. Lett. 16, 1355–1358.
16.Johnston, R. C. , Reed, D. H. , and Desler, J. F. (1988). “Special report of the SEG Technical Standards Committee, SEG standards for specifying marine seismic energy sources,” Geophysics 53, 566–575.
17.Koelsch, D. E., Purdy, G. M., and Broda, J. E. (1991). “A Multiple Charge Deep Deployed Explosive Source for High Resolution seismic Refraction Experiments in the Deep Ocean,” paper presented at Fall MTS Conference, Mar. Technol. Soc., New Orleans, LA.
18.Price, R. S. (1979). “Similitude equations for explosives fired underwater,” Naval Surface Warfare Center, Dahlgren, VA, NSWC TR 80-299.
19.Raitt, R. W. (1956). “Seismic refraction studies of the Pacific Ocean basin,” Geol. Soc. Am. Bull. 67, 1623–1640.
20.Sauter, A. W., Dorman, L. M., and Schreiner, A. E. (1986). “A study of sea floor structure using ocean bottom shots,” in Ocean Seismo-Acoustics Low-Frequency Underwater Acoustics, edited by T. Akal and J. M. Berkson, NATO Conference Series 4 (Plenum, New York), Vol. 16, pp. 673–681.
21.Schreiner, A. E., Dorman, L. M., and Bibee, L. D. (1991). “Shear wave velocity structure from interface waves at two deep water sites in the Pacific Ocean,” in Shear Waves in Marine Sediments, edited by J. M. Hovem, M. D. Richardson, and R. D. Stoll (Kluwer Academic, Boston, MA), pp. 231–238.
22.Smith, D. K. , and Cann, J. R. (1993). “Building the crust at the Mid-Atlantic Ridge,” Nature (London) 365, 707–715.
23.Spudich, P. , and Orcutt, J. (1980). “Petrology and porosity of an oceanic crustal site: Results from wave form modeling of seismic refraction data,” J. Geophys. Res. 85, 1409–1433.
24.Weston, D. E. (1960). “Underwater explosions as acoustic sources,” Proc. Phys. Soc. 76, 233–249.
25.Wiggins, S. M., Canuteson, E. L., Dorman, L. M., Hildebrand, J. A., Cornuelle, B. D., Sauter, A. W., and Schreiner, A. E. (1993). “Crustal Structure at the Hess Deep: Seismic Studies Show High Velocities in the Intra-Rift Ridge and Low Velocity in the Deep,” Eos, Fall Meeting Supplement, p. 666.
26.Wiggins, S. M. , Dorman, L. M. , Cornuelle, B. D. , and Hildebrand, J. A. (1996). “Hess deep rift valley structure from seismic tomography,” J. Geophys. Res. 101, 22335–22353.
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