موقری، ر.، جوان دلوئی، غ.، ١٣٩٧، تعیین ساختار سرعتی پوسته بالایی جنوب غرب تهران با استفاده از توموگرافی نوفه لرزهای درونچاهی: فیزیک زمین و فضا، 44(3)، 281-295.
Abdetedall, M., Shomali, Z. H., and Gheitanchi, M. R., 2015, Ambient noise surface wave tomography of the Makran subduction zone, south-east Iran: Implications for crustal and uppermost mantle structures: Earthquake Science, 28(4), 235–251.
Afra, M., and et al., 2021, Three-dimensional P-wave tomography in the Central Alborz, Iran: Physics of the Earth and Planetary Interiors, 315(1), 106711.
Bayes, T., 1958, Essay towards solving a problem in the doctrine of chances: Biometrika, 45, 293–315.
Bodin, T., Sambridge, M., and Gallagher, K., 2009, A self-parametrizing partition model approach to tomographic inverse problems: Inverse Problems, 25(5), 055009.
Bodin, T., Sambridge, M., Rawlinson, N., and Arroucau, P., 2012, Transdimensional tomography with unknown data noise: Geophysical Journal International, 189, 1536–1556.
Bodin, T., and Sambridge, M., 2009, Seismic tomography with the reversible jump algorithm: Geophysical Journal International, 178, 1411–1436.
Draganov, D., Wapenaar, K., Thorbecke, J., and Nishizawa, O., 2007, Retrieving reflection responses by cross correlating transmission responses from deterministic transient sources: Application to ultrasonic data: The Journal of the Acoustical Society of America, 122(5), 172-178.
Herrmann, R. B., 1973. Some aspects of band-pass filtering of surface waves: Bulletin of the Seismological Society of America, 63(2), 663–671.
Kaviani, A., Paul, A., Moradi, A., and et al., 2020, Crustal and uppermost mantle shear wave velocity structure beneath the Middle East from surface wave tomography: Geophysical Journal International, 221(2), 1349–1365.
Mostafanejad, A., Shomali, Z. H., Mottaghi, A. A., 2011, 3-D velocity structure of Damavand volcano, Iran, from local earthquake tomography: Journal of Asian Earth Sciences, 42(6), 1091–1096.
Mottaghi, A., Rezapour, M., and Tibuleac, I., 2012, Ambient noise Rayleigh wave shallow tomography in the Tehran region, Central Alborz, Iran: Seismological Research Letters, 83(3), 498–504.
Movaghari, R., and JavanDoloei, G., 2020, 3-D crustal structure of the Iran plateau using phase velocity ambient noise tomography: Geophysical Journal International, 220(3), 1555–1568.
Movaghari, R., and JavanDoloei, G., Yang, Y., Tatar, M., and Sadidkhouy, A., 2021, Crustal radial anisotropy of the Iran Plateau inferred from ambient noise tomography: Journal of Geophysical Research: Solid Earth, 126(4).
Rahimi Dalkhani, A., Zhang, X., and Weemstra, C., 2021, On the potential of 3D transdimensional surface wave tomography for geothermal prospecting of the Reykjanes Peninsula: Remote Sensing, 13(23), 4929.
Rawlinson, N., and Sambridge, M., 2004, Wavefront evolution in strongly heterogeneous layered media using the fast marching method: Geophysical Journal International, 156, 631–647.
Rezaeifar, M., and Kissling, E., 2020, Regional 3-D lithosphere structure of the northern half of Iran by local earthquake tomography: Geophysical Journal International, 223(3), 1956–1972
Sabra, K. G., Gerstoft, P., Roux, P., Kuperman, W. A., and Fehler, M. C., 2005, Extracting time domain Green’s function estimates from ambient seismic noise: Geophysical Research Letters, 32(3).
Sadidkhouy, A., Javan-Doloei, Gh., and Siahkoohi, H. R., 2008, Seismic anisotropy in the crust and upper mantle of the Central Alborz region, Iran: Tectonophysics, 456, 194–205.
Sethian, J. A., 1996, A fast marching level set method for monotonically advancing fronts: Proceedings of the National Academy of Sciences of The United States of America, 93(4), 1591–1595.
Shirmohammadi, F., Draganov, D., Hatami, M. R., and Weemstra, C., 2021, Application of seismic interferometry by multidimensional deconvolution to earthquake data recorded in Malargüe, Argentina: Remote Sensing, 13, 4818.
Shirzad, T., and Shomali, Z. H., 2014, Extracting seismic body and Rayleigh waves from the ambient seismic noise using the rms-stacking method: Seismological Research Letters, 86(1), 173–180.
Weemstra, C., Draganov, D., Ruigrok, E., Hunziker, J., Gomez, M., and Wapenaar, K., 2016, Application of seismic interferometry by multidimensional deconvolution to ambient seismic noise recorded in Malargüe, Argentina: Geophysical Journal International, 208(2), 693–714.
Wessel, P., Smith, W. H. F., Scharroo, R., Luis, J., and Wobbe, F., 2013, Generic Mapping Tools: Improved Version Released, EOS Trans. AGU, 94(45), 409–410.
Yanovskaya, T. B., Kizima, E. S., and Antonova, L. M., 1998, Structure of the crust in the Black Sea and adjoining regions from surface wave data: Journal of Seismology, 2, 303–316.
Zhang, X., Curtis, A., Galetti, E., and de Ridder, S., 2018, 3-D Monte Carlo surface wave tomography: Geophysical Journal International, 215, 1644–1658.
Zhang, X., Hansteen, F., Curtis, A., and de Ridder, 2020, 1-D, 2-D, and 3-D Monte Carlo ambient noise tomography using a dense passive seismic array installed on the North Sea Seabed: Journal of Geophysical Research, Solid Earth, 125.