Bruce Cornuelle • UCSD Profiles (original) (raw)

1. Passive moving source ocean acoustic tomography with uncertainty quantification using relative arrival times from a ship of opportunity. J Acoust Soc Am. 2026 Feb 01; 159(2):1501-1511. Vazquez HJ, Cornuelle BD, Hodgkiss WS, Gemba KL. PMID: 41685922.
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2. Validating shipping noise simulations for the Red Sea using field measurements. Mar Pollut Bull. 2026 Jan; 222(Pt 2):118698. Larayedh R, Havlik MN, Cornuelle BD, Krokos G, Duarte CM, Hoteit I. PMID: 40966922.
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   Translation:PHPublic Health
3. Observations of acoustic propagation in the Canada Basin double-duct system from 2016 to 2017 using a 150-km radius tomographic array. J Acoust Soc Am. 2025 Jul 01; 158(1):38-50. Colosi JA, Worcester PF, Dzieciuch MA, Cornuelle BD, Vazquez HJ, Miller CW. PMID: 40600694.
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4. Measuring phase difference to sense small-scale ocean sound-speed structure. JASA Express Lett. 2025 Feb 01; 5(2). DeFilippis JP, Cornuelle BD, Lucas AJ, Hodgkiss WS, Kuperman WA. PMID: 39898853.
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5. Response of sea surface temperature to atmospheric rivers. Nat Commun. 2024 Jun 12; 15(1):5018. Hsu TY, Mazloff MR, Gille ST, Freilich MA, Sun R, Cornuelle BD. PMID: 38866745; PMCID: PMC11169647.
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6. Numerical investigation of shipping noise in the Red Sea. Sci Rep. 2024 Mar 11; 14(1):5851. Larayedh R, Cornuelle BD, Krokos G, Hoteit I. PMID: 38462653; PMCID: PMC10925598.
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7. Using long-range transmissions in the Beaufort Gyre to test the sound-speed equation at high pressure and low temperature. J Acoust Soc Am. 2023 Oct 01; 154(4):2676-2688. Vazquez HJ, Cornuelle BD, Worcester PF, Dzieciuch MA, Colosi JA, Nash JD. PMID: 37877776.
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9. Acoustic travel-time variability observed on a 150-km radius tomographic array in the Canada Basin during 2016-2017. J Acoust Soc Am. 2023 May 01; 153(5):2621. Worcester PF, Dzieciuch MA, Vazquez HJ, Cornuelle BD, Colosi JA, Krishfield RA, Kemp JN. PMID: 37130001.
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10. Deep ocean long range underwater navigation with ocean circulation model corrections. J Acoust Soc Am. 2023 Jan; 153(1):548. Mikhalevsky PN, Gopalakrishnan G, Cornuelle BD. PMID: 36732235.
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11. Peak-time sensitivity kernels for noise cross-correlation envelopes. J Acoust Soc Am. 2022 Apr; 151(4):2353. Cornuelle BD, Skarsoulis EK. PMID: 35461485.
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12. A Broadband View of the Sea Surface Height Wavenumber Spectrum. Geophys Res Lett. 2022 Feb 28; 49(4):e2021GL096699. Villas Bôas AB, Lenain L, Cornuelle BD, Gille ST, Mazloff MR. PMID: 35865998; PMCID: PMC9285931.
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13. Moving source ocean acoustic tomography with uncertainty quantification using controlled source-tow observations. J Acoust Soc Am. 2022 Feb; 151(2):861. Gemba KL, Vazquez HJ, Sarkar J, Tippman JD, Cornuelle B, Hodgkiss WS, Kuperman WA. PMID: 35232093.
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14. Long-Term Earth-Moon Evolution With High-Level Orbit and Ocean Tide Models. J Geophys Res Planets. 2021 Dec; 126(12):e2021JE006875. Daher H, Arbic BK, Williams JG, Ansong JK, Boggs DH, Müller M, Schindelegger M, Austermann J, Cornuelle BD, Crawford EB, Fringer OB, Lau HCP, Lock SJ, Maloof AC, Menemenlis D, Mitrovica JX, Green JAM, Huber M. PMID: 35846556; PMCID: PMC9285098.
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15. Using a regional ocean model to understand the structure and variability of acoustic arrivals in Fram Strait. J Acoust Soc Am. 2020 Feb; 147(2):1042. Geyer F, Sagen H, Cornuelle B, Mazloff MR, Vazquez HJ. PMID: 32113306.
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16. Cross-correlation sensitivity kernels with respect to noise source distribution. J Acoust Soc Am. 2020 Jan; 147(1):1. Skarsoulis EK, Cornuelle BD. PMID: 32006961.
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17. Observations of phase and intensity fluctuations for low-frequency, long-range transmissions in the Philippine Sea and comparisons to path-integral theory. J Acoust Soc Am. 2019 Jul; 146(1):567. Colosi JA, Cornuelle BD, Dzieciuch MA, Worcester PF, Chandrayadula TK. PMID: 31370574.
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18. Cross-correlation of shipping noise: Refraction and receiver-motion effects. J Acoust Soc Am. 2019 May; 145(5):3003. Skarsoulis EK, Cornuelle BD. PMID: 31153318.
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19. Estimating relative channel impulse responses from ships of opportunity in a shallow water environment. J Acoust Soc Am. 2018 09; 144(3):1231. Gemba KL, Sarkar J, Cornuelle B, Hodgkiss WS, Kuperman WA. PMID: 30424623.
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20. Resolution, identification, and stability of broadband acoustic arrivals in Fram Strait. J Acoust Soc Am. 2017 03; 141(3):2055. Sagen H, Worcester PF, Dzieciuch MA, Geyer F, Sandven S, Babiker M, Beszczynska-Möller A, Dushaw BD, Cornuelle B. PMID: 28372100.
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21. Determination of acoustic waveguide invariant using ships as sources of opportunity in a shallow water marine environment. J Acoust Soc Am. 2017 02; 141(2):EL102. Verlinden CM, Sarkar J, Cornuelle BD, Kuperman WA. PMID: 28253685.
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22. Regional ocean data assimilation. Ann Rev Mar Sci. 2015; 7:21-42. Edwards CA, Moore AM, Hoteit I, Cornuelle BD. PMID: 25103331.
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23. Long-range asymptotic behavior of vertical travel-time sensitivity kernels. J Acoust Soc Am. 2013 Oct; 134(4):3201-10. Skarsoulis EK, Cornuelle BD, Dzieciuch MA. PMID: 24116516.
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24. Using a numerical model to understand the connection between the ocean and acoustic travel-time measurements. J Acoust Soc Am. 2013 Oct; 134(4):3211-22. Powell BS, Kerry CG, Cornuelle BD. PMID: 24116517.
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25. Structure and stability of wave-theoretic kernels in the ocean. J Acoust Soc Am. 2013 Oct; 134(4):3318-31. Dzieciuch MA, Cornuelle BD, Skarsoulis EK. PMID: 24116526.
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26. Observations of sound-speed fluctuations in the western Philippine Sea in the spring of 2009. J Acoust Soc Am. 2013 Oct; 134(4):3185-200. Colosi JA, Van Uffelen LJ, Cornuelle BD, Dzieciuch MA, Worcester PF, Dushaw BD, Ramp SR. PMID: 24116515.
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27. Analyzing sound speed fluctuations in shallow water from group-velocity versus phase-velocity data representation. J Acoust Soc Am. 2013 Apr; 133(4):1945-52. Roux P, Kuperman WA, Cornuelle BD, Aulanier F, Hodgkiss WS, Song HC. PMID: 23556564.
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28. Observations of sound-speed fluctuations on the New Jersey continental shelf in the summer of 2006. J Acoust Soc Am. 2012 Feb; 131(2):1733-48. Colosi JA, Duda TF, Lin YT, Lynch JF, Newhall AE, Cornuelle BD. PMID: 22352602.
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29. Sensitivity kernel for surface scattering in a waveguide. J Acoust Soc Am. 2012 Jan; 131(1):111-8. Sarkar J, Marandet C, Roux P, Walker S, Cornuelle BD, Kuperman WA. PMID: 22280576.
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30. Information and linearity of time-domain complex demodulated amplitude and phase data in shallow water. J Acoust Soc Am. 2011 Sep; 130(3):1242-52. Sarkar J, Cornuelle BD, Kuperman WA. PMID: 21895067.
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31. Experimental demonstration of the utility of pressure sensitivity kernels in time-reversal. J Acoust Soc Am. 2010 Sep; 128(3):989-1003. Raghukumar K, Cornuelle BD, Hodgkiss WS, Kuperman WA. PMID: 20815436.
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32. Travel-time sensitivity kernels in long-range propagation. J Acoust Soc Am. 2009 Nov; 126(5):2223-33. Skarsoulis EK, Cornuelle BD, Dzieciuch MA. PMID: 19894803.
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33. Assessing coastal plumes in a region of multiple discharges: the U.S.-Mexico border. Environ Sci Technol. 2009 Oct 01; 43(19):7450-7. Kim SY, Terrill EJ, Cornuelle BD. PMID: 19848160.
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    Translation:CellsPHPublic Health
34. The structure of raylike arrivals in a shallow-water waveguide. J Acoust Soc Am. 2008 Dec; 124(6):3430-9. Roux P, Cornuelle BD, Kuperman WA, Hodgkiss WS. PMID: 19206772.
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35. Pressure sensitivity kernels applied to time-reversal acoustics. J Acoust Soc Am. 2008 Jul; 124(1):98-112. Raghukumar K, Cornuelle BD, Hodgkiss WS, Kuperman WA. PMID: 18646958.
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    Translation:Humans
36. Statistics and vertical directionality of low-frequency ambient noise at the North Pacific Acoustic Laboratory site. J Acoust Soc Am. 2005 Mar; 117(3 Pt 2):1643-65. Baggeroer AB, Scheer EK, Colosi JA, Cornuelle BD, Dushaw BD, Dzieciuch MA, Howe BM, Mercer JA, Munk WH, Spindel RC, Worcester PF, Npal Group. PMID: 15810696.
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    Translation:AnimalsPHPublic Health
37. Adjoint modeling for acoustic inversion. J Acoust Soc Am. 2004 Feb; 115(2):607-19. Hursky P, Porter MB, Cornuelle BD, Hodgkiss WS, Kuperman WA. PMID: 15000173.
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This graph shows the number and percent of publications by field. Fields are based on how the National Library of Medicine (NLM) classifies the publications' journals and might not represent the specific topics of the publications. Note that an individual publication can be assigned to more than one field. As a result, the publication counts in this graph might add up to more than the number of publications the person has written. To see the data as text, click here.

This graph shows the number and percent of publications by field. Fields are based on how the National Library of Medicine (NLM) classifies the publications' journals and might not represent the specific topics of the publications. Note that an individual publication can be assigned to more than one field. As a result, the publication counts in this graph might add up to more than the number of publications the person has written. To see the data as text, click here.

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