| Bienvenido a CICESE
Datos Personales
Nombre:
Esparza Hernández Francisco Javier
Categoría:
INVESTIGADOR TITULAR
SNI:
INVESTIGADOR I
Departamento:
DEPARTAMENTO DE GEOFÍSICA APLICADA
División:
DIVISIÓN DE CIENCIAS DE LA TIERRA
Correo:
fesparz@cicese.mx
Extensión:
26314
Proyectos
Modelos bidimensionales de mínima estructura para datos magnetotelúricos
Hay 23 publicaciones.

Año

Autores / Publicación

2022

Vargas Huitzil, E., Pérez Flores, M. A., Esparza Hernández, F. J., & Méndez Delgado, S. (2022). 2D Joint inversion of electromagnetic soundings at low induction numbers and direct current resistivity. Near Surface Geophysics, 21(02), 113-126. doi: 10.1002/nsg.12238. (ID: 28072)

2017

Muñiz Gallegos, Y., Gómez Treviño, E., Esparza Hernández, F. J., & Cuellar Urbano, M. (2017). Stable 2D magnetotelluric strikes and impedances via the phase tensor and the quadratic equation. Geophysics, 82(4), E169-E186. doi: 10.1190/GEO2015-0700.1. (ID: 22730)

2014

Esparza Hernández, F. J., Mendez Delgado, S., & Gómez Treviño, E. (2014). Theoretical approach for the depth of penetration of in situ magnetic susceptibility measurements. Near Surface Geophysics, 12(5), 573-577. doi: 10.3997/1873-0604.2014020. (ID: 17609)

2014

Gómez Treviño, E., Romo Jones, J. M., & Esparza Hernández, F. J. (2014). Quadratic solution for the 2-D magnetotelluric impedance tensor distorted by 3-D electro-galvanic effects. Geophysical Journal International, 198(3), 1795-1804. doi: 10.1093/gji/ggu238. (ID: 15007)

2014

Gómez Treviño, E., & Esparza Hernández, F. J. (2014). What is the depth of investigation of a resistivity measurement?. Geophysics, 79(2), W1-W10. doi: 10.1190/GEO2013-0261.1. (ID: 16878)

2014

Gómez Treviño, E., Esparza Hernández, F. J., Muñiz Gallegos, Y., & Calderón Moctezuma, A. (2014). The magnetotelluric tranverse electric mode as a natural filter for static effects: Application to the COPROD2 and COPROD2S2 data sets. Geophysics, 79(2), E91-E99. doi: 10.1190/GEO2012-0522.1. (ID: 16879)

2013

Gómez Treviño, E., Antonio Carpio, R. G., Romo Jones, J. M., & Esparza Hernández, F. J. (2013). A recursive set of invariants of the magnetotelluric impedance tensor. Acta Geodaetica et Geophysica, 48(3), 265-274. doi: 10.1007/s40328-013-0022-8. (ID: 14370)

2013

Gómez Treviño, E., Esparza Hernández, F. J., & Romo Jones, J. M. (2013). Effect of galvanic distortions on the series and parallel magnetotelluric impedances and comparison with other responses. Geofísica Internacional, 52(2), 135-152. (ID: 14751)

2010

Rodríguez Ramírez, J. E., Esparza Hernández, F. J., & Gómez Treviño, E. (2010). 2-D Niblett-Bostick magnetotelluric inversion. Geologica Acta, 8(1), 15-31. doi: 10.1344/105.000001513. (ID: 8671)

2005

García Abdeslem, J., Romo Jones, J. M., Gómez Treviño, E., Ramirez Hernandez, J., Esparza Hernández, F. J., & Flores Luna, C. F. (2005). A constrained 2D gravity model of the Sebastian Vizcaino Basin, Baja California Sur, México. Geophysical Prospecting, 53, 755-765. (ID: 5434)

2005

Romo Jones, J. M., Gómez Treviño, E., & Esparza Hernández, F. J. (2005). Series and parallel transformations of the magnetotelluric impedance tensor: theory and applications. Physics of the Earth and Planetary Interiors, 150, 63-83. (ID: 5532)

2002

Gómez Treviño, E., Esparza Hernández, F. J., & Mendez Delgado, S. (2002). New theoretical and practical aspects of electromagnetic soundings at low induction numbers. Geophysics, 67(5), 1441-1451. (ID: 4449)

2001

Hidalgo Silva, H. H., Gómez Treviño, E., Marroquín Zaleta, J. L., & Esparza Hernández, F. J. (2001). Piecewise continuous models for resistivity soundings. IEEE Transactions on Geoscience and Remote Sensing, 39(12), 2725-2728. (ID: 3848)

2001

Romo Jones, J. M., García Abdeslem, J., Gómez Treviño, E., Esparza Hernández, F. J., & Flores Luna, C. F. (2001). Resultados preliminares de un perfil geofísico a través de la región central de la península de Baja California, México. GEOS, 21(2), 96-107. (ID: 4611)

1999

Romo Jones, J. M., Gómez Treviño, E., & Esparza Hernández, F. J. (1999). An invariant representation for the magnetic transfer function in magnetotellurics. Geophysics, 64(5), 1418-1428. (ID: 3030)