James Cairns scite author profile

During June and July of 1974, internal wave records totaling 21 days duration were made at a nominal depth of 350 m in a location 800 km offshore of San Diego, California. The measurements were made with a midwater capsule which profiles temperature while it drifts with the mean flow. The resulting vertical displacement spectra decrease generally as •o-: between the local inertial frequency •o• and the buoyancy frequency n with a pronounced peak just below n; outside these limits the spectra drop sharply. Vertical coherences are nearly frequency independent between •o• and n with the exception of a peak just below n corresponding to the peak in the displacement spectrum. A low-frequency (0 _< •o _< 0.5n) average of coherence (not squared) decreases linearly from 0.99 at l-m separation to 0.85 at 36-m separation. This result suggests that modal energy is distributed with mode numberj as (/': + j,:)-•, where j, -• 3. Phase spectra averaged over the same interval indicate little or no net vertical transport of energy. The wave spectra are consistent with those of a stationary Gaussian process for periods up to 12 hours.

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Asymmetry of internal tidal waves in shallow coastal waters

Cairns¹

1967

J. Geophys. Res.

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Internal wave measurements from a midwater float

Cairns¹

1975

J. Geophys. Res.

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An instrument package has been developed that drifts along freely with the water while it repeatedly profiles ocean temperature. Profiling during drifting reduces the Doppler and fine structure effects that usually contaminate internal wave measurements. Six days of exceptionally clean internal wave records were acquired 470 km offshore of San Diego, California, in June 1973 at a nominal depth of 800 m. The resulting vertical displacement spectra decrease generally as ω−2 up to the local Brunt‐Väisälä (B‐V) frequency. Just below the B‐V frequency there is a spectral peak. Above the B‐V frequency the spectra drop sharply to low levels. Vertical coherence of internal waves over a separation of 100 m was found to be 0.8 and fairly independent of frequency up to the B‐V frequency. An internal wave model proposed by Garrett and Munk is in general agreement with the observed features. Both the measured coherence and the oscillatory nature of the spectrum near the B‐V cutoff are consistent with an energy concentration in the lower six or so modes. In addition to the internal wave records, continual changes in the thermal structure were observed by the drifting package. One repeating thermal inversion pattern occurred four times during the 6‐day thermal structure record.

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Recent Advances In Underwater Mateable Electrical Connectors

Cairns

1983

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Periodic motions of the seasonal thermocline along the southern California coast

Cairns¹,

LaFond²

1966

J. Geophys. Res.

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An investigation off the southern California coast has shown that a significant part of seasonal thermocline motion is caused by wind transport. A linear relationship for this motion, which takes into account the 14‐ to 16‐hour response time occurring between wind and depth changes, has been established. Through this relationship it is possible to compute and predict movements of the thermocline caused by the wind. Those found to occur regularly include a diurnal oscillation, an oscillation of 4½‐day period, and an over‐all upward trend throughout the summer. Tidal thermocline oscillations were studied with the wind effects removed. It was found that during the 4 months of nearly continuous thermocline depth data the internal tide lagged the surface tide by 3 to 5 hours and averaged 4 or 5 times as great in amplitude.

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James Cairns

Internal wave observations from a midwater float, 2

Asymmetry of internal tidal waves in shallow coastal waters

Internal wave measurements from a midwater float

Recent Advances In Underwater Mateable Electrical Connectors

Periodic motions of the seasonal thermocline along the southern California coast

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