| Steven R. Ramp, 2022 |
Ramp, S. R., Yang, Y. J., Chiu, C. S., Reeder, D. B., & Bahr, F. L. (2022). Observations of shoaling internal wave transformation over a gentle slope in the South China Sea. Nonlinear Processes in Geophysics, 29(3), 279-299. |
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| Sabinin, K. D., 2004 |
Sabinin, K. D., Serebryany, A. N., & Nazarov, A. A. (2004). Intense internal waves in the World Ocean. Oceanology, 44(6), 805-810. |
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| Lenain, L., & Pizzo, N., 2021 |
Lenain, L., & Pizzo, N. (2021). Modulation of surface gravity waves by internal waves. Journal of Physical Oceanography, 51(9), 2735-2748. |
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| Jia, T., 2021 |
Jia, T., Liang, J., Li, Q., Sha, J., & Li, X. M. (2021). Generation of shoreward nonlinear internal waves south of the Hainan Island: Synthetic aperture radar observations and numerical simulations. Journal of Geophysical Research: Oceans, 126(6), e2021JC017334. |
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| Marchenko, A. V., 2021 |
Marchenko, A. V., Morozov, E. G., Kozlov, I. E., & Frey, D. I. (2021). High-amplitude internal waves southeast of Spitsbergen. Continental Shelf Research, 227, 104523. |
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| Kawaguchi, Y., 2021 |
Kawaguchi, Y., Wagawa, T., Yabe, I., Ito, D., Senjyu, T., Itoh, S., & Igeta, Y. (2021). Mesoscale-dependent near-inertial internal waves and microscale turbulence in the Tsushima Warm Current. Journal of Oceanography, 77, 155-171. |
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| Yang, Y., 2021 |
Yang, Y., Huang, X., Zhao, W., Zhou, C., Huang, S., Zhang, Z., & Tian, J. (2021). Internal solitary waves in the Andaman Sea revealed by long-term mooring observations. Journal of Physical Oceanography, 51(12), 3609-3627. |
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| Lee, J., 2021 |
Lee, J., Liu, J. T., Lee, I. H., Fu, K. H., Yang, R. J., Gong, W., & Gan, J. (2021). Encountering shoaling internal waves on the dispersal pathway of the pearl river plume in summer. Scientific Reports, 11(1), 999. |
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| Celona, S., 2021 |
Celona, S., Merrifield, S. T., de Paolo, T., Kaslan, N., Cook, T., Terrill, E. J., & Colosi, J. A. (2021). Automated detection, classification, and tracking of internal wave signatures using X-band radar in the inner shelf. Journal of Atmospheric and Oceanic Technology, 38(4), 789-803. |
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| Yang, B., 2021 |
Yang, B., Hu, P., & Hou, Y. (2021). Variation and episodes of near-inertial internal waves on the continental slope of the southeastern East China Sea. Journal of Marine Science and Engineering, 9(8), 916. |
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| Senjyu, T., 2021 |
Senjyu, T., & Shin, H. R. (2021). Flow intensification due to the superposition of near‐inertial internal waves in the abyssal Yamato and Tsushima Basins of the Japan Sea (East Sea). Journal of Geophysical Research: Oceans, 126(3), e2020JC016647. |
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| Chang, M. H., 2021 |
Chang, M. H., Lien, R. C., Lamb, K. G., & Diamessis, P. J. (2021). Long‐term observations of shoaling internal solitary waves in the northern South China Sea. Journal of Geophysical Research: Oceans, 126(10), e2020JC017129. |
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| Shaddox, H. R., 2021 |
Shaddox, H. R., Brodsky, E. E., Ramp, S. R., & Davis, K. A. (2021). Seismic detection of oceanic internal gravity waves from subaerial seismometers. AGU Advances, 2(3), e2021AV000475. |
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| Lucas, A. J., 2022 |
Lucas, A. J., & Pinkel, R. (2022). Observations of coherent transverse wakes in shoaling nonlinear internal waves. Journal of Physical Oceanography, 52(6), 1277-1293. |
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| Serebryany, A., 2022 |
Serebryany, A., Khimchenko, E., Zamshin, V., & Popov, O. (2022). Features of the Field of Internal Waves on the Abkhazian Shelf of the Black Sea according to Remote Sensing Data and In Situ Measurements. Journal of Marine Science and Engineering, 10(10), 1342. |
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