Your search keyword '"Rapp, Ronald"' showing total 17 results

1. Fast and destructive density currents created by ocean-entering volcanic eruptions

Author

Clare, Michael A., Yeo, Isobel A., Watson, Sally, Wysoczanski, Richard, Seabrook, Sarah, Mackay, Kevin, Hunt, James E., Lane, Emily, Talling, Peter J., Pope, Edward, Cronin, Shane, Ribó, Marta, Kula, Taaniela, Tappin, David, Henrys, Stuart, de Ronde, Cornel, Urlaub, Morelia, Kutterolf, Steffen, Fonua, Samuiela, Panuve, Semisi, Veverka, Dean, Rapp, Ronald, Kamalov, Valey, Williams, Michael, Clare, Michael A., Yeo, Isobel A., Watson, Sally, Wysoczanski, Richard, Seabrook, Sarah, Mackay, Kevin, Hunt, James E., Lane, Emily, Talling, Peter J., Pope, Edward, Cronin, Shane, Ribó, Marta, Kula, Taaniela, Tappin, David, Henrys, Stuart, de Ronde, Cornel, Urlaub, Morelia, Kutterolf, Steffen, Fonua, Samuiela, Panuve, Semisi, Veverka, Dean, Rapp, Ronald, Kamalov, Valey, and Williams, Michael

Abstract

Volcanic eruptions on land create hot and fast pyroclastic density currents, triggering tsunamis or surges that travel over water where they reach the ocean. However, no field study has documented what happens when large volumes of erupted volcanic material are instead delivered directly into the ocean. We show how the rapid emplacement of large volumes of erupted material onto steep submerged slopes triggered extremely fast (122 kilometers per hour) and long-runout (>100 kilometers) seafloor currents. These density currents were faster than those triggered by earthquakes, floods, or storms, and they broke seafloor cables, cutting off a nation from the rest of the world. The deep scours excavated by these currents are similar to those around many submerged volcanoes, providing evidence of large eruptions at other sites worldwide.

Published

2023

2. Wave Breaking, Turbulence and Mixing

Author

Melville, W. K., Rapp, Ronald J., Chan, Eng-Soon, Toba, Yoshiaki, editor, and Mitsuyasu, Hisashi, editor

Published

1985

3. The remote telephone interface

Author

Rapp, Ronald H.

Subjects

Telephone systems -- Innovations -- Equipment and supplies, Digital control systems -- Innovations, Intelligent buildings -- Technology application, Buildings -- Technology application, Communications controllers -- Innovations, Business, Construction and materials industries, Environmental services industry, Telephone system, Technology application, Innovations

Abstract

How DDC system manufacturers support advanced features of the remote telephone interface Today building owners and operators have control of and information access to their properties in ways they never [...]

Published

1995

4. Technology in Undersea Cable Systems: 50 Years of Progress

Author

Thomas, Robert, primary, Rapp, Ronald J., additional, Spalding, Marsha A., additional, Stix, Robert K., additional, Kordahi, Maurice E., additional, and Bergano, Neal S., additional

Published

2015

5. Laboratory measurements of deep water breaking waves

Author

Wallace K. Melville., Massachusetts Institute of Technology. Dept. of Ocean Engineering., Rapp, Ronald James, Wallace K. Melville., Massachusetts Institute of Technology. Dept. of Ocean Engineering., and Rapp, Ronald James

Abstract

Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Ocean Engineering, 1986., MICROFICHE COPY AVAILABLE IN ARCHIVES AND ENGINEERING., Bibliography: leaves 255-260., by Ronald James Rapp., Ph.D.

Published

2006

6. India's Critical Role in the Resilience of the Global Undersea Communications Cable Infrastructure

Author

Rapp, Ronald J., primary, Gady, Franz-Stefan, additional, Parmar, Sarabjeet Singh, additional, and Rauscher, Karl Frederick, additional

Published

2012

7. Effective and apparent temperature calculations and performance analysis of mid-wave infrared light emitting diodes for use in infrared scene projection

Author

Golden, Eric M., primary and Rapp, Ronald J., additional

Published

2010

8. History of undersea telecommunications technology

Author

Rapp, Ronald J., primary and Spalding, Marsha A., additional

Published

2008

9. Point-spread function and MTF characterization of the kinetic-kill-vehicle hardware-in-the-loop simulation (KHILS) infrared-laser scene projector

Author

Alexander, Terri L., primary, Boreman, Glenn D., additional, Ducharme, Alfred D., additional, and Rapp, Ronald J., additional

Published

1993

10. Laser damage threshold measurements of AgGaSe2 crystal at 9 um

Author

Acharekar, Madhu A., primary, Montgomery, James L., additional, and Rapp, Ronald J., additional

Published

1992

11. High-resolution airborne imaging spectrometer.

Author

Villemaire, Andre J., Fortin, Serge, Lafond, Claude, Soucy, Marc-Andre A., Legault, Jean-Francois, Giroux, Jean, Goodrich, Shawn M., Bauldree, Russell S., and Rapp, Ronald J.

Published

1998

12. Infrared imaging spectroradiometer program overview.

Author

Rapp, Ronald J. and Register, Henry I.

Published

1995

13. Point-spread function and MTF characterization of the kinetic-kill-vehicle hardware-in-the-loop simulation (KHILS) infrared-laser scene projector.

Author

Alexander, Terri L., Boreman, Glenn D., Ducharme, Alfred D., and Rapp, Ronald J.

Published

1993

14. Laser damage threshold measurements of AgGaSe2 crystal at 9 um.

Author

Acharekar, Madhu A., Montgomery, James L., and Rapp, Ronald J.

Published

1992

15. Momentum flux in breaking waves.

Author

Melville, W. K. and Rapp, Ronald J.

Published

1985

16. The surface velocity field in steep and breaking waves

Author

Melville, W. K., primary and Rapp, Ronald J., additional

Published

1988

17. Fast and destructive density currents created by ocean-entering volcanic eruptions.

Author

Clare MA, Yeo IA, Watson S, Wysoczanski R, Seabrook S, Mackay K, Hunt JE, Lane E, Talling PJ, Pope E, Cronin S, Ribó M, Kula T, Tappin D, Henrys S, de Ronde C, Urlaub M, Kutterolf S, Fonua S, Panuve S, Veverka D, Rapp R, Kamalov V, and Williams M

Abstract

Volcanic eruptions on land create hot and fast pyroclastic density currents, triggering tsunamis or surges that travel over water where they reach the ocean. However, no field study has documented what happens when large volumes of erupted volcanic material are instead delivered directly into the ocean. We show how the rapid emplacement of large volumes of erupted material onto steep submerged slopes triggered extremely fast (122 kilometers per hour) and long-runout (>100 kilometers) seafloor currents. These density currents were faster than those triggered by earthquakes, floods, or storms, and they broke seafloor cables, cutting off a nation from the rest of the world. The deep scours excavated by these currents are similar to those around many submerged volcanoes, providing evidence of large eruptions at other sites worldwide.

Published

2023