The aim of this work is the formulation of a 3D model of the Mt. Amiata volcanic complex (Southern Tuscany) by means of geomagnetic data. This work is shown not only as a real test to check the validity of the inversion algorithm, but also to add information about the structure of the volcanic complex. First, we outline briefly the theory of geomagnetic data inversion and we introduce the approach adopted. Then we show the 3D model of the Amiata volcano built from the inversion, and we compare it with the available geological information. The most important consideration regards the surface distribution of the magnetization that is in good agreement with rock samples from this area. Moreover, the recovered model orientation recall the exten...
The estimation of the direction of the total magnetization vector of a magnetic source is the first ...
Two main plutonic facies characterize the intrusive complex of the Island of Giglio, and the trend o...
To understand a field of volcanic activity, a survey on the Earth's subsurface structure is helpful....
The aim of this work is the formulation of a 3D model of the Mt. Amiata volcanic complex (Southern T...
The aim of this work is the formulation of a 3D model of the Mt. Amiata volcanic complex (Southern T...
A new approach to the interpretation of magnetic anomalies generated by geological structures resemb...
We describe and apply a new inversion method for 3-D modeling of magnetic anomalies designed for gen...
We present an algorithm for the linear inversion of two-dimensional (2-D) surface magnetic data to o...
Geodetic and magnetic investigations have been playing an increasingly important role in studies on ...
A ground magnetic study of Ustica Island was performed to provide new insights into subsurface tecto...
flows and volcanoclastic deposits dating from Miocene to Quaternary. Gravity and aeromagnetic anomal...
International audienceWe present a method—named as MILMA for modelling and inversion of local magnet...
This paper deals with the analysis of aeromagnetic data on the Sonma-Vesuvius area. An inverse 2.5D ...
The Golcuk (Isparta) is on the southern side of the city of Isparta in the Mediterranean region of T...
The estimation of the direction of the total magnetization vector of a magnetic source is the first ...
Two main plutonic facies characterize the intrusive complex of the Island of Giglio, and the trend o...
To understand a field of volcanic activity, a survey on the Earth's subsurface structure is helpful....
The aim of this work is the formulation of a 3D model of the Mt. Amiata volcanic complex (Southern T...
The aim of this work is the formulation of a 3D model of the Mt. Amiata volcanic complex (Southern T...
A new approach to the interpretation of magnetic anomalies generated by geological structures resemb...
We describe and apply a new inversion method for 3-D modeling of magnetic anomalies designed for gen...
We present an algorithm for the linear inversion of two-dimensional (2-D) surface magnetic data to o...
Geodetic and magnetic investigations have been playing an increasingly important role in studies on ...
A ground magnetic study of Ustica Island was performed to provide new insights into subsurface tecto...
flows and volcanoclastic deposits dating from Miocene to Quaternary. Gravity and aeromagnetic anomal...
International audienceWe present a method—named as MILMA for modelling and inversion of local magnet...
This paper deals with the analysis of aeromagnetic data on the Sonma-Vesuvius area. An inverse 2.5D ...
The Golcuk (Isparta) is on the southern side of the city of Isparta in the Mediterranean region of T...
The estimation of the direction of the total magnetization vector of a magnetic source is the first ...
Two main plutonic facies characterize the intrusive complex of the Island of Giglio, and the trend o...
To understand a field of volcanic activity, a survey on the Earth's subsurface structure is helpful....
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