| Khimchenko, E., 2022 |
Khimchenko, E., Ostrovskii, A., Klyuvitkin, A., & Piterbarg, L. (2022). Seasonal variability of near-inertial internal waves in the deep central part of the Black Sea. Journal of Marine Science and Engineering, 10(5), 557. |
На карте |
| Jiang, Y., 2022 |
Jiang, Y., Grigorev, V., & Katsnelson, B. (2022). Sound field fluctuations in shallow water in the presence of moving nonlinear internal waves. Journal of Marine Science and Engineering, 10(1), 119. |
На карте |
| Tao, M., 2022 |
Tao, M., Xu, C., Guo, L., Wang, X., & Xu, Y. (2022). An Internal Waves Data Set From Sentinel‐1 Synthetic Aperture Radar Imagery and Preliminary Detection. Earth and Space Science, 9(12), e2022EA002528. |
На карте |
| Svergun, E. I., 2022 |
Svergun, E. I., Zimin, A. V., & Zhegulin, G. V. (2022). Observations of the Second Mode Internal Waves in the White and Barents Seas. Physical Oceanography, 29(2), 172-181. |
На карте |
| Endoh, T., 2022 |
Endoh, T., Tsutsumi, E., Hong, C. S., Baek, G. N., Chang, M. H., Yang, Y. J., ... & Lee, J. H. (2022). Estimating propagation speed and direction, and vertical displacement of second-mode nonlinear internal waves from ADCP measurements. Continental Shelf Research, 233, 104644. |
На карте |
| Sinnett, G., 2022 |
Sinnett, G., Ramp, S. R., Yang, Y. J., Chang, M. H., Jan, S., & Davis, K. A. (2022). Large-amplitude internal wave transformation into shallow water. Journal of Physical Oceanography, 52(10), 2539-2554. |
На карте |
| van Haren, H., 2022 |
van Haren, H., Voet, G., Alford, M. H., & Torres, D. J. (2022). Internal wave breaking near the foot of a steep East-Pacific continental slope. Progress in Oceanography, 205, 102817. |
На карте |
| Liu, H., 2022 |
Liu, H., Yang, W., Wei, H., Jiang, C., Liu, C., & Zhao, L. (2022). On characteristics and mixing effects of internal solitary waves in the northern Yellow Sea as revealed by satellite and in situ observations. Remote Sensing, 14(15), 3660. |
На карте |
| Zhang, H., 2022 |
Zhang, H., Meng, J., Sun, L., & Li, S. (2022). Observations of Reflected Internal Solitary Waves near the Continental Shelf of the Dongsha Atoll. Journal of Marine Science and Engineering, 10(6), 763. |
На карте |
| Hou, H., 2022 |
Hou, H., Xu, T., Li, B., Yang, B., Wei, Z., & Yu, F. (2022). Different types of near-inertial internal waves observed by lander in the intermediate-deep layers of the South China Sea and their generation mechanisms. Journal of Marine Science and Engineering, 10(5), 594. |
На карте |
| Huang, L., 2023 |
Huang, L., Yang, J., Ma, Z., Liu, B., Ren, L., Liu, A. K., & Chen, P. (2023). High-frequency observations of oceanic internal waves from geostationary orbit satellites. Ocean-Land-Atmosphere Research, 2, 0024. |
На карте |
| Kozlov, I. E., 2023 |
Kozlov, I. E., Kopyshov, I. O., Frey, D. I., Morozov, E. G., Medvedev, I. P., Shiryborova, A. I., ... & Stepanova, N. B. (2023). Multi-Sensor Observations Reveal Large-Amplitude Nonlinear Internal Waves in the Kara Gates, Arctic Ocean. Remote Sensing, 15(24), 5769. |
На карте |
| Baumann, T. M., & Fer, I., 2023 |
Baumann, T. M., & Fer, I. (2023). Trapped tidal currents generate freely propagating internal waves at the Arctic continental slope. Scientific Reports, 13(1), 14816. |
На карте |
| Purwandana, A., & Cuypers, Y., 2023 |
Purwandana, A., & Cuypers, Y. (2023). Characteristics of internal solitary waves in the Maluku Sea, Indonesia. Oceanologia, 65(2), 333-342. |
На карте |
| Yang, Y., Huang, X., 2023 |
Yang, Y., Huang, X., Zhao, W., Zhou, C., Zhang, Z., Guan, S., & Tian, J. (2023). Kelvin waves from the equatorial Indian Ocean modulate the nonlinear internal waves in the Andaman Sea. Environmental Research Letters, 18(9), 094037. |
На карте |