Mode-1 N₂ internal tides observed by satellite altimetry

Abstract: Abstract. Satellite altimetry provides a unique technique for observing the sea surface height (SSH) signature of internal tides from space. Previous studies have constructed empirical internal tide models for the four largest constituents M2, S2, K1, and O1 by satellite altimetry. Yet no empirical models have been constructed for minor tidal constituents. In this study, we observe mode-1 N2 internal tides (the fifth largest constituent) using about 100 satellite years of SSH data from 1993 to 2019. We employ … Show more

“…most regions (∼2%-10%). However, a considerable improvement (∼40%) is observed in NW AUS, where the impact of N 2 is most significant (Zhao, 2023).…”

“…The inclusion of N 2 in HYCOM moderately increased variance reduction in most regions (∼2%–10%). However, a considerable improvement (∼40%) is observed in NW AUS, where the impact of N 2 is most significant (Zhao, 2023).…”

Phase‐Accurate Internal Tides in a Global Ocean Forecast Model: Potential Applications for Nadir and Wide‐Swath Altimetry

“…most regions (∼2%-10%). However, a considerable improvement (∼40%) is observed in NW AUS, where the impact of N 2 is most significant (Zhao, 2023).…”

“…The inclusion of N 2 in HYCOM moderately increased variance reduction in most regions (∼2%–10%). However, a considerable improvement (∼40%) is observed in NW AUS, where the impact of N 2 is most significant (Zhao, 2023).…”

Phase‐Accurate Internal Tides in a Global Ocean Forecast Model: Potential Applications for Nadir and Wide‐Swath Altimetry