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Acoustic thermometry of ocean climate. A description of the acoustic network

Mercer, James A. ; Howe, Bruce M. ; Dushaw, Brian D. ; [et al.]

Acoustical Society of America (ASA) ; 1996

In: The Journal of the Acoustical Society of America Vol. 100, No. 4_Supplement ( 1996-10-01), p. 2580-2580

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In: The Journal of the Acoustical Society of America, Acoustical Society of America (ASA), Vol. 100, No. 4_Supplement ( 1996-10-01), p. 2580-2580

Abstract: The ATOC acoustic feasibility network became functional in December 1995 following the installation of an acoustic source on Pioneer Seamount approximately 50 nm off the coast of Northern California. The current effort is part of the Marine Mammal Research Program Pilot Study. This paper describes the acoustic network of sources and receivers, including the augmentations to be made in summer 1996. The network was designed to take advantage of existing hydrophone arrays, while providing for maximum coverage of the North Pacific by the acoustic paths. The acoustical receptions currently being obtained are processed to obtain ‘‘dot plots’’ which show the arrival times and arrival angles of acoustical energy above a chosen signal-to-noise ratio. The ‘‘dot plot’’ histories demonstrate stable ray arrivals (albeit with significant amplitude fluctuations) for even the longest propagation ranges of 5 Mm. [Work supported by the Strategic Environmental Research and Development Program through ARPA.]

Type of Medium: Online Resource

ISSN: 0001-4966 , 1520-8524

URL: Article

DOI: 10.1121/1.417518

RVK:

EQ 1000

Language: English

Publisher: Acoustical Society of America (ASA)

Publication Date: 1996

detail.hit.zdb_id: 1461063-2

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Comparisons of measured and predicted acoustic fluctuations for a 3250-km propagation experiment in the eastern North Pacific Ocean

Colosi, John A. ; Scheer, Edward K. ; Flatté, Stanley M. ; [et al.]

Acoustical Society of America (ASA) ; 1999

In: The Journal of the Acoustical Society of America Vol. 105, No. 6 ( 1999-06-01), p. 3202-3218

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In: The Journal of the Acoustical Society of America, Acoustical Society of America (ASA), Vol. 105, No. 6 ( 1999-06-01), p. 3202-3218

Abstract: During the Acoustic Engineering Test (AET) of the Acoustic Thermometry of Ocean Climate (ATOC) program, acoustic signals were transmitted from a broadband source with 75-Hz center frequency to a 700-m-long vertical array of 20 hydrophones at a distance of 3252 km; receptions occurred over a period of six days. Each received pulse showed early identifiable timefronts, followed by about 2 s of highly variable energy. For the identifiable timefronts, observations of travel-time variance, average pulse shape, and the probability density function (PDF) of intensity are presented, and calculations of internal-wave contributions to those fluctuations are compared to the observations. Individual timefronts have rms travel time fluctuations of 11 to 19 ms, with time scales of less than 2 h. The pulse time spreads are between 0 and 5.3 ms rms, which suggest that internal-wave-induced travel-time biases are of the same magnitude. The PDFs of intensity for individual ray arrivals are compared to log-normal and exponential distributions. The observed PDFs are closer to the log-normal distribution, and variances of log intensity are between (3.1 dB)2 (with a scintillation index of 0.74) for late-arriving timefronts and (2.0 dB)2 (with a scintillation index of 0.2) for the earliest timefronts. Fluctuations of the pulse termination time of the transmissions are observed to be 22 ms rms. The intensity PDF of nonidentified peaks in the pulse crescendo are closer to a log-normal distribution than an exponential distribution, but a Kolmogorov–Smirnov test rejects both distributions. The variance of the nonidentified peaks is (3.5 dB)2 and the scintillation index is 0.92. As a group, the observations suggest that the propagation is on the border of the unsaturated and partially saturated regimes. After improving the specification of the ray weighting function, predictions of travel-time variance using the Garrett–Munk (GM) internal-wave spectrum at one-half the reference energy are in good agreement with the observations, and the one-half GM energy level compares well with XBT data taken along the transmission path. Predictions of pulse spread and wave propagation regime are in strong disagreement with the observations. Pulse time spread estimates are nearly two orders of magnitude too large, and Λ–Φ methods for predicting the wave propagation regime predict full saturation.

Type of Medium: Online Resource

ISSN: 0001-4966 , 1520-8524

URL: Article

DOI: 10.1121/1.424650

RVK:

EQ 1000

Language: English

Publisher: Acoustical Society of America (ASA)

Publication Date: 1999

detail.hit.zdb_id: 1461063-2

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North Pacific basin heat content variability determined from long-range acoustic transmissions

Howe, Bruce M. ; Dushaw, Brian D. ; Mercer, James A. ; [et al.]

Acoustical Society of America (ASA) ; 1996

In: The Journal of the Acoustical Society of America Vol. 100, No. 4_Supplement ( 1996-10-01), p. 2581-2581

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In: The Journal of the Acoustical Society of America, Acoustical Society of America (ASA), Vol. 100, No. 4_Supplement ( 1996-10-01), p. 2581-2581

Abstract: ATOC signals transmitted from the Pioneer Seamount acoustic source have been received on hydrophone arrays located throughout the North Pacific Basin since the beginning of 1996. Propagation times can be used to infer average temperature (or heat content) variability because the speed of sound changes with temperature. The time series of resolved-ray travel times show both an annual cycle with amplitudes up to 0.5 s, and other higher frequency fluctuations of comparable magnitude caused by natural oceanic variability. The range-averaged temperature is derived from the low-pass filtered ( & lt;1 cpd) resolved-ray travel times by constructing a model for the structure and statistics of oceanic variability, fitting the model to the data using weighted least-squares techniques, and then calculating the range- and depth-averaged quantity including its uncertainty. Because many of the resolved rays reflect off the sea surface, the mixed layer in particular, and the upper ocean in general, must be correctly modeled. The variability of acoustically determined heat content is compared to that determined from the Levitus94 atlas, historical expendable bathythermograph (XBT) data; other concurrent data types are not yet available for direct comparison. [Work supported by the Strategic Environmental Research and Development Program through ARPA.]

Type of Medium: Online Resource

ISSN: 0001-4966 , 1520-8524

URL: Article

DOI: 10.1121/1.417522

RVK:

EQ 1000

Language: English

Publisher: Acoustical Society of America (ASA)

Publication Date: 1996

detail.hit.zdb_id: 1461063-2

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A test of basin-scale acoustic thermometry using a large-aperture vertical array at 3250-km range in the eastern North Pacific Ocean

Worcester, Peter F. ; Cornuelle, Bruce D. ; Dzieciuch, Matthew A. ; [et al.]

Acoustical Society of America (ASA) ; 1999

In: The Journal of the Acoustical Society of America Vol. 105, No. 6 ( 1999-06-01), p. 3185-3201

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In: The Journal of the Acoustical Society of America, Acoustical Society of America (ASA), Vol. 105, No. 6 ( 1999-06-01), p. 3185-3201

Abstract: Broadband acoustic signals were transmitted during November 1994 from a 75-Hz source suspended near the depth of the sound-channel axis to a 700-m long vertical receiving array approximately 3250 km distant in the eastern North Pacific Ocean. The early part of the arrival pattern consists of raylike wave fronts that are resolvable, identifiable, and stable. The later part of the arrival pattern does not contain identifiable raylike arrivals, due to scattering from internal-wave-induced sound-speed fluctuations. The observed ray travel times differ from ray predictions based on the sound-speed field constructed using nearly concurrent temperature and salinity measurements by more than a priori variability estimates, suggesting that the equation used to compute sound speed requires refinement. The range-averaged ocean sound speed can be determined with an uncertainty of about 0.05 m/s from the observed ray travel times together with the time at which the near-axial acoustic reception ends, used as a surrogate for the group delay of adiabatic mode 1. The change in temperature over six days can be estimated with an uncertainty of about 0.006 °C. The sensitivity of the travel times to ocean variability is concentrated near the ocean surface and at the corresponding conjugate depths, because all of the resolved ray arrivals have upper turning depths within a few hundred meters of the surface.

Type of Medium: Online Resource

ISSN: 0001-4966 , 1520-8524

URL: Article

DOI: 10.1121/1.424649

RVK:

EQ 1000

Language: English

Publisher: Acoustical Society of America (ASA)

Publication Date: 1999

detail.hit.zdb_id: 1461063-2

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