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Recent Publications
On the Variability of In-situ Surface Layer Refractivity Measurements
Pastore, D.M. and Hackett, E.E. (2023). On the Variability of In-situ Surface Layer Refractivity Measurements, Atmosphere, under review.
Fusing Numerical Weather Prediction Ensembles with Refractivity Inversions During Surface Ducting Conditions
Greenway, D.P., Haack, T., Hackett, E.E. (2023). Fusing Numerical Weather Prediction Ensembles with Refractivity Inversions During Surface Ducting Conditions. Journal of Applied Meteorology and Climatology, under review.
A Novel Near-Surface Wave-Coherent Instantaneous Profiling System for Atmospheric Measurements
Stanek, M.J.; Pastore, D.M.; Hackett, E.E. (2023). A Novel Near-Surface Wave-Coherent Instantaneous Profiling System for Atmospheric Measurements. Sensors, 23, 4099. https://doi.org/10.3390/s23084099
Refractivity inversions from point-to-point X-band radar propagation measurements
Pastore, D.M., Wessinger, S. E., Greenway, D. P., Stanek, M. J., Burkholder, R. J., Haack, T., et al. (2022). Refractivity inversions from point-to-point X-band radar propagation measurements. Radio Science, 57, e2021RS007345. https://doi.org/10.1029/2021RS007345
Wake characteristics of a freely rotating bioinspired swept rotor bladeNafi, A. S., Krishnan, K., Debnath, A. K., Hackett, E. E., & Gurka, R. (2021). Wake characteristics of a freely rotating bioinspired swept rotor blade. Royal Society Open Science, 8(7), 210779. https://doi.org/10.1098/rsos.210779
Comparison of atmospheric refractivity estimation methods and their influence on radar propagation predictionsPastore, D. M., Greenway, D.P., Stanek, M. J., Wessinger, S. E., Haack, T., Wang, Q., & Hackett, E. E. (2021). Comparison of atmospheric refractivity estimation methods and their influence on radar propagation predictions. Radio Science, 56, e2020RS007244. https://doi.org/10.1029/2020RS007244
Impact of radar data sampling on the accuracy of atmospheric refractivity inversions over marine surfaces
Matsko, I.J. and E.E. Hackett (2019) Radio Science, 54, https://doi.org/10.1029/2018RS006757.
Hydrodynamic drivers of dissolved oxygen variability within a tidal creek in Myrtle Beach, South Carolina
Pastore, D.M., R.N. Peterson, D.B. Fribance, R. Viso, and E.E. Hackett (2019), Water, 11(8), 1723, doi:10.3390/w11081723
Leading-edge vortices over swept-back wings with varying sweep geometries,
Lambert, W. B., M.J. Stanek, R. Gurka, and E.E. Hackett (2019) Royal Society Open Science, 6: 190514, http://dx.doi.org/10.1098/rsos.190514
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Wake flow features associated with noise reduction in Boobook owl during flapping flight
Lawley, J., H. Ben-Gida, K. Krishnan, E.E. Hackett, G.A. Kopp, G. Morgan, C.G. Guglielmo, and R. Gurka (2019) Integrative Organismal Biology, obz001, https://doi.org/10.1093/iob/obz001.
Group line energy in phase-resolved ocean surface wave orbital velocity reconstructions from X-band Doppler radar measurements of the sea surface
Kammerer A.J. and E.E. Hackett, (2019) Remote Sensing, 11(1), 71. doi:10.3390/rs11010071.
Simultaneous measurement of turbulence and particle kinematics using flow imaging techniques
Hackett, E.E. and R. Gurka (2019) Journal of Visualized Experiments (JoVE), 145, e58036, doi:10.3791/58036.
Rough ocean surface effects on evaporative duct atmospheric refractivity inversions using genetic algorithms.
Penton, S.E., and Hackett E.E. (2018)
Radio Science,53(6), 804-819
Moth inspired navigation algorithm in a turbulent odor plume from a pulsating source.
Liberzon A., Harrington K., Daniel N., Gurka R., Harari A. and Zilman G. (2018)
Plos One, 13(6), e0198422
Experimental study of the initial growth of a localized turbulent patch in a stably stratified fluid.
Verso L., van Reeuwijk M., Gurka R., Taylor Z.J., Diamessis P.J. and Liberzon A. (2017)
International Journal of Heat and Fluid Flow, 66, 127-136
Physical conditions of coastal hypoxia in the open embayment of Long Bay, South Carolina.
Troup M.L., Fribance D.B., Libes S.M., Gurka R. and Hackett E.E. (2017)
Estuaries and Coasts, 1-16
Use of proper orthogonal decomposition for extraction of ocean surface wave fields from X-band radar measurements of the sea surface.
Kammerer A.J. and Hackett E.E. (2017)
Remote Sensing, 9, 881
Extension of POD analysis towards the three dimensional coherent structures.
Gurka R., Liberzon A. and Hetroni G. (2017)
Multi-Phase Flow Phenomena and Applications, volume in Honor of Professor Gad Hetsroni.
Flow pattern similarities in the near wake of three bird species suggest a common role for unsteady aerodynamic effects in lift generation.
Gurka R., Krishnana K., Ben-Gida H., Kircheffer A.J., Kopp G.A. and Guglielmo C.G. (2017)
Royal Society: Interface Focus, 7, 20160090
Flow scales of influence on the settling velocities of particles with varying characteristics.
Jacobs C.N., Merchant W., Jendrassak M., Limpasuvan V., Gurka R., and Hackett E.E. (2016)
Plos One, 11(8), e0159645
A stratified wake of a hydrofoil accelerating from rest.
Ben-Gida H., Liberzon A., and Gurka R. (2016)
Experimental Thermal and Fluid Science, 70, 366-380
Experimental study of the settling velocities of synthetic, industrial and natural particles in grid turbulence.
Jacobs C., Merchant W., Jendrassak M., Limpasuvan V., Gurka R. and Hackett E.E. (2016)
Plos One, 11(8), e0159645
Global sensitivity of parabolic equation radar wave propagation simulation to sea state and atmospheric refractivity structure.
Lentini, N.E., and Hackett E.E. (2015)
Radio Science, 50
Evaluation of simplified evaporation duct refractivity models for inversion problems.
Saeger, J.T., N.G. Grimes, H.E. Rickard, and E.E. Hackett (2015)
Radio Science, 50
Wave field characterization using dual-polarized pulse-Doppler X-band Radar.
Hackett E.E., A.M. Fullerton, C.F. Merrill, and T.C. Fu (2015)
IEEE Transactions on Geosciences and Remote Sensing, 53, 11, 5926-5942
On the estimation of time dependent lift of a European starling (Sturnus vulgaris) during flapping flight.
Stanlov O., Ben-Gida H., Kirchhefer A.J., Guglielmo C.G., Kopp G.A., Liberzon A. and Gurka R. (2015)
Plos One, 10(9), e0134582
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