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Alonaizi, F., R. Pevzner, A. Bona, V. Shulakova, and B. Gurevich, 2013, 3D diffraction imaging of linear features and its application to seismic monitoring: Geophysical Prospecting, 61, 1206-1217.

Anagaw, A. Y., and M. D. Sacchi, 2012, Edge-preserving seismic imaging using the total variation method: Journal of Geophysics and Engineering, 9, 138-146.

Berkovitch, A., I. Belfer, Y. Hassin, and E. Landa, 2009, Diffraction imaging by multifocusing: Geophysics, 74, no. 6, WCA75-WCA81.

Bona, A., and R. Pevzner, 2015, Using Fresnel zone to characterise and image different types of diffractors in low S/N situations: Expanded Abstracts 77th EAGE International Conference, N116.

Burnett, W. A., A. Klokov, S. Fomel, R. Bansal, E. Liu, and T. Jenkinson, 2015, Seismic diffraction interpretation at Piceance Creek: Interpretation, 3, no. 1, SF1-SF14.

Burstedde, C., and O. Ghattas, 2009, Algorithmic strategies for full waveform inversion: 1D experiments: Geophysics, 74, no. 6, WCC37-WCC46.

Chan, T. F., G. H. Golub, and P. Mulet, 1999, A nonlinear primal-dual method for total variation-based image restoration: SIAM journal on scientific computing, 20, 1964-1977.

Chen, Y., and S. Fomel, 2015, Random noise attenuation using local signal-and-noise orthogonalization: Geophysics, 80, no. 6, WD1-WD9.

Daubechies, I., M. Defrise, and C. De Mol, 2004, An iterative thresholding algorithm for linear inverse problems with a sparsity constraint: Communications on Pure and Applied Mathematics, 57, 1413-1457.

de Ribet, B., G. Yelin, Y. Serfaty, D. Chase, R. Kelvin, and Z. Koren, 2017, High resolution diffraction imaging for reliable interpretation of fracture systems: First Break, 35, 43-47.

Decker, L., D. Merzlikin, and S. Fomel, 2017, Enhancing seismic-diffraction images using semblance-weighted least-squares migration: 87th Annual International Meeting, SEG, Expanded Abstracts, 5294-5299.

Dell, S., and D. Gajewski, 2011, Common-reflection-surface-based workflow for diffraction imaging: Geophysics, 76, no. 5, S187-S195.

Dell, S., D. Gajewski, and A. Hoelker, 2019a, Azimuthal Diffraction Imaging: a Land Data Example from Northern Switzerland: Presented at the 81st EAGE Conference and Exhibition 2019.

Dell, S., A. Hoelker, and D. Gajewski, 2019b, Using seismic diffractions for assessment of tectonic overprint and fault interpretation: Geophysics, 84, no. 1, IM1-IM9.

Fehmers, G. C., and C. F. Höcker, 2003, Fast structural interpretation with structure-oriented filtering: Geophysics, 68, 1286-1293.

Fomel, S., 2002, Applications of plane-wave destruction filters: Geophysics, 67, 1946-1960.

----, 2007, Shaping regularization in geophysical-estimation problems: Geophysics, 72, no. 2, R29-R36.

Fomel, S., E. Landa, and M. T. Taner, 2007, Poststack velocity analysis by separation and imaging of seismic diffractions: Geophysics, 72, no. 6, U89-U94.

Foss, S.-K., J. Matias, A. Sollid, L. Loures, T. Pinotti, E. Brenne, Ø. Wergeland, T. Broch, D. Merten, and N. Ettrich, 2018, Examples of geology from seismic diffractions: 88th Annual International Meeting, SEG, Expanded Abstracts, 4141-4145.

Glöckner, M., J. Walda, S. Dell, D. Gajewski, J. Karstens, D. Kläschen, and C. Berndt, 2019, Imaging zero-offset 3-D P-cable data with CRS method: Geophysical Journal International, 219, 1876-1884.

Greer, S., and S. Fomel, 2018, Matching and merging high-resolution and legacy seismic images: Geophysics, 83, no. 2, V115-V122.

Hale, D., 2009, Structure-oriented smoothing and semblance: CWP Report 635.

Harlan, W. S., J. F. Claerbout, and F. Rocca, 1984, Signal/noise separation and velocity estimation: Geophysics, 49, 1869-1880.

Hoeber, H., K. Klem-Musatov, T. Moser, and M. Pelissier, 2010, Diffractions-A Historical Perspective: Expanded Abstracts 72nd EAGE International Conference, G033.

Kanasewich, E. R., and S. M. Phadke, 1988, Imaging discontinuities on seismic sections: Geophysics, 53, 334-345.

Keller, J. B., 1962, Geometrical theory of diffraction: Journal of the Optical Society of America, 52, 116-130.

Keydar, S., and E. Landa, 2019, Wave refocusing for linear diffractor using the time-reversal principle: Geophysical Prospecting, 67, 1345-1353.

Klem-Musatov, K., 1994, Theory of Seismic Diffractions: Society of Exploration Geophysicists (Edited by Hron F. Fronta and Larry Lines).

Klem-Musatov, K. D., A. M. Aizenberg, J. Pajchel, and H. B. Helle, 2008, Edge and Tip diffractions: Theory and Applications in Seismic Prospecting: SEG Geophysical Monograph Series, 14.

Klokov, A., R. Baina, and E. Landa, 2011, Point and edge diffractions in three dimensions: Expanded Abstracts 73rd EAGE International Conference, B023.

Klokov, A., and S. Fomel, 2012, Separation and imaging of seismic diffractions using migrated dip-angle gathers: Geophysics, 77, no. 6, S131-S143.

----, 2013, Selecting an optimal aperture in Kirchhoff migration using dip-angle images: Geophysics, 78, no. 6, S243-S254.

Klokov, A., A. Repnik, V. Bochkarev, and A. Bochkarev, 2017a, Integrated evaluation of Roseneath-Epsilon-Murteree formations, Cooper Basin, Australia to develop an optimal approach for sweet spot determination: Unconventional Resources Technology Conference (URTEC), Article ID 2670605.

Klokov, A., R. H. Treviño, and T. A. Meckel, 2017b, Diffraction imaging for seal evaluation using ultra high resolution 3D seismic data: Marine and Petroleum Geology, 82, 85-96.

Koltanovsky, L., A. Korolev, E. Rossiyskaya, and K. Smirnov, 2017, Enhancing confidence in fracture prediction through advanced seismic data processing and analysis techniques: First Break, 35, 49-53.

Koren, Z., and I. Ravve, 2011, Full-azimuth subsurface angle domain wavefield decomposition and imaging Part I: Directional and reflection image gathers: Geophysics, 76, no. 1, S1-S13.

Kozlov, E., N. Barasky, E. Korolev, A. Antonenko, and E. Koshchuk, 2004, Imaging scattering objects masked by specular reflections: 74th Annual International Meeting, SEG, Expanded Abstracts, 1131-1134.

Landa, E., and S. Keydar, 1998, Seismic monitoring of diffraction images for detection of local heterogeneities: Geophysics, 63, 1093-1100.

Liu, Y., S. Fomel, and G. Liu, 2010, Nonlinear structure-enhancing filtering using plane-wave prediction: Geophysical Prospecting, 58, 415-427.

Meckel, T. A., and F. J. Mulcahy, 2016, Use of novel high-resolution 3D marine seismic technology to evaluate Quaternary fluvial valley development and geologic controls on shallow gas distribution, inner shelf, Gulf of Mexico: Interpretation, 4, no. 1, SC35-SC49.

Merzlikin, D., and S. Fomel, 2015, An efficient workflow for path-integral imaging of seismic diffractions: 85th Annual International Meeting, SEG, Expanded Abstracts, 4096-4100.

----, 2016, Least-squares path-integral diffraction imaging using sparsity constraints: 86th Annual International Meeting, SEG, Expanded Abstracts, 4299-4304.

----, 2017, Analytical path-summation imaging of seismic diffractions: Geophysics, 82, no. 1, S51-S59.

Merzlikin, D., S. Fomel, and A. Bona, 2016, Diffraction imaging using azimuthal plane-wave destruction: 86th Annual International Meeting, SEG, Expanded Abstracts, 4288-4293.

Merzlikin, D., S. Fomel, and M. K. Sen, 2019, Least-squares path-summation diffraction imaging using sparsity constraints: Geophysics, 84, no. 3, S187-S200.

Merzlikin, D., S. Fomel, and X. Wu, 2018, Least-squares diffraction imaging using shaping regularization by anisotropic smoothing: 88th Annual International Meeting, SEG, Expanded Abstracts, 4326-4331.

Merzlikin, D., S. Fomel, X. Wu, and M. Phillips, 2017a, Unconventional reservoir characterization using azimuthal seismic diffraction imaging: Unconventional Resources Technology Conference (URTEC), Article ID 2695232.

Merzlikin, D., T. A. Meckel, S. Fomel, and Y. Sripanich, 2017b, Diffraction imaging of high-resolution 3D P-cable data from the Gulf of Mexico using azimuthal plane-wave destruction: First Break, 35, 35-41.

Montazeri, M., L. O. Boldreel, A. Uldall, and L. Nielsen, 2020, Improved seismic interpretation of a salt diapir by utilization of diffractions, exemplified by 2D reflection seismics, Danish sector of the North Sea: Interpretation, 8, no. 1, T77-T88.

Moser, T., 2011, Edge and tip diffraction imaging in three dimensions: Expanded Abstracts 73rd EAGE International Conference incorporating EUROPEC, B020.

Moser, T., L. Moskvil, E. Angerer, W. Kobusinski, M. Pelissier, and J. Orosz, 2020, Diffraction imaging of the Wisting Discovery: Fourth Naturally Fractured Reservoir Workshop, EAGE, 1-5.

Moser, T. J., and C. B. Howard, 2008, Diffraction imaging in depth: Geophysical Prospecting, 56, 627-641.

Nemeth, T., C. Wu, and G. T. Schuster, 1999, Least-squares migration of incomplete reflection data: Geophysics, 64, 208-221.

Papziner, U., and K.-P. Nick, 1998, Automatic detection of hyperbolas in georadargrams by slant-stack processing and migration: First Break, 16, 219-223.

Pelissier, M., T. J. Moser, C. Yu, J. Lang, I. Sturzu, and A. M. Popovici, 2017, Interpretation value of diffractions and sub-specular reflections-applications on the Zhao Dong field: First Break, 35, 61-68.

Popovici, A. M., I. Sturzu, and T. J. Moser, 2015, High resolution diffraction imaging of small scale fractures in shale and carbonate reservoirs: 14th International Congress of the Brazilian Geophysical Society, SPE-178538-MS.

Rad, P. B., B. Schwarz, C. Vanelle, and D. Gajewski, 2014, Common reflection surface (CRS) based pre-stack diffraction separation: 84th Annual International Meeting, SEG, Expanded Abstracts, 4208-4212.

Reshef, M., and E. Landa, 2009, Post-stack velocity analysis in the dip-angle domain using diffractions: Geophysical Prospecting, 57, 811-821.

Ronen, S., and C. L. Liner, 2000, Least-squares DMO and migration: Geophysics, 65, 1364-1371.

Schoepp, A., S. Labonté, and E. Landa, 2015, Multifocusing 3D diffraction imaging for detection of fractured zones in mudstone reservoirs: case history: Interpretation, 3, no. 1, SF31-SF42.

Schwarz, B., 2019, Coherent wavefield subtraction for diffraction separation: Geophysics, 84, no. 3, V157-V168.

Schwarz, B., and D. Gajewski, 2017, Accessing the diffracted wavefield by coherent subtraction: Geophysical Journal International, 211, 45-49.

Serfaty, Y., L. Itan, D. Chase, and Z. Koren, 2017, Wavefield separation via principle component analysis and deep learning in the local angle domain: 87th Annual International Meeting, SEG, Expanded Abstracts, 991-995.

Silvestrov, I., R. Baina, and E. Landa, 2015, Poststack diffraction imaging using reverse-time migration: Geophysical Prospecting, 64, 129-142.

Strong, D., and T. Chan, 2003, Edge-preserving and scale-dependent properties of total variation regularization: Inverse Problems, 19, S165-S187.

Sturzu, I., A. M. Popovici, T. J. Moser, and S. Sudhakar, 2015, Diffraction imaging in fractured carbonates and unconventional shales: Interpretation, 3, no. 1, SF69-SF79.

Taner, M. T., S. Fomel, and E. Landa, 2006, Separation and imaging of seismic diffractions using plane-wave decomposition: 76th Annual International Meeting, SEG, Expanded Abstracts, 25, 2401-2405.

Tsingas, C., B. E. Marhfoul, S. Satti, and A. Dajani, 2011, Diffraction imaging as an interpretation tool: First Break, 29, no. 12, 57-61.

Tyiasning, S., D. Merzlikin, D. Cooke, and S. Fomel, 2016, A comparison of diffraction imaging to incoherence and curvature: The Leading Edge, 35, 86-89.

Van Vliet, L. J., and P. W. Verbeek, 1995, Estimators for orientation and anisotropy in digitized images, in Proceedings of the First Annual Conference of the Advanced School for Computing and Imaging ASCI'95: 442-450.

Weickert, J., 1997, A review of nonlinear diffusion filtering: International Conference on Scale-Space Theories in Computer Vision, Springer, 1-28.

----, 1998, Anisotropic diffusion in image processing: Teubner.

Wu, X., 2017, Directional structure-tensor-based coherence to detect seismic faults and channels: Geophysics, 82, no. 2, A13-A17.

Wu, X., and X. Janson, 2017, Directional structure tensors in estimating seismic structural and stratigraphic orientations: Geophysical Journal International, 210, 534-548.

Yu, C., J. Zhao, and Y. Wang, 2017a, Seismic detection method for small-scale discontinuities based on dictionary learning and sparse representation: Journal of Applied Geophysics, 137, 55-62.

Yu, C., J. Zhao, Y. Wang, and Z. Qiu, 2016, Sparse diffraction imaging method using an adaptive reweighting homotopy algorithm: Journal of Geophysics and Engineering, 14, 26-40.

Yu, C., J. Zhao, Y. Wang, C. Wang, and W. Geng, 2017b, Separation and imaging diffractions by a sparsity-promoting model and subspace trust-region algorithm: Geophysical Journal International, 208, 1756-1763.

Zelewski, G., W. A. Burnett, E. Liu, M. Johns, X. Wu, J. Zhang, and G. Skeith, 2017, Diffraction imaging enhancement using spectral decomposition for faults, fracture zones, and collapse feature detection in a Middle East carbonate field: First Break, 35, 55-60.

Znak, P., S. Dell, B. Kashtan, and D. Gajewski, 2019, Identification and focusing of edge diffractions with wavefront attributes: 89th Annual International Meeting, SEG, Expanded Abstracts, 5060-5064.