Publications
This is a list of the peer-reviewed publications on international journals that I have authored and co-authored. For a full and updated list of publications and citations visit my profile on Google Scholar and Scopus.
2017
1.
Angel R J; Mazzucchelli M L; Alvaro M; Nestola F
EosFit-Pinc: A simple GUI for host-inclusion elastic thermobarometry Journal Article
In: American Mineralogist, 102 (9), pp. 1957–1960, 2017.
Abstract | Links | BibTeX | Tags: elasticity, equations of state, Fortran, software development
@article{angel2017eosfit,
title = {EosFit-Pinc: A simple GUI for host-inclusion elastic thermobarometry},
author = {Ross John Angel and Mattia Luca Mazzucchelli and Matteo Alvaro and Fabrizio Nestola},
url = {https://doi.org/10.2138/am-2017-6190},
doi = {10.2138/am-2017-6190},
year = {2017},
date = {2017-01-01},
urldate = {2017-01-01},
journal = {American Mineralogist},
volume = {102},
number = {9},
pages = {1957--1960},
abstract = {Elastic geothermobarometry is a method of determining metamorphic conditions from the excess pressures exhibited by mineral inclusions trapped inside host minerals. An exact solution to the problem of combining non-linear Equations of State (EoS) with the elastic relaxation problem for elastically isotropic spherical host-inclusion systems without any approximations of linear elasticity is presented. The solution is encoded into a Windows GUI program EosFit-Pinc. The program performs host-inclusion calculations for spherical inclusions in elastically isotropic systems with full P-V-T EoS for both phases, with a wide variety of EoS types. The EoS values of any minerals can be loaded into the program for calculations. EosFit-Pinc calculates the isomeke of possible entrapment conditions from the pressure of an inclusion measured when the host is at any external pressure and temperature (including room conditions), and it can calculate final inclusion pressures from known entrapment conditions. It also calculates isomekes and isochors of the two phases.},
keywords = {elasticity, equations of state, Fortran, software development},
pubstate = {published},
tppubtype = {article}
}
Elastic geothermobarometry is a method of determining metamorphic conditions from the excess pressures exhibited by mineral inclusions trapped inside host minerals. An exact solution to the problem of combining non-linear Equations of State (EoS) with the elastic relaxation problem for elastically isotropic spherical host-inclusion systems without any approximations of linear elasticity is presented. The solution is encoded into a Windows GUI program EosFit-Pinc. The program performs host-inclusion calculations for spherical inclusions in elastically isotropic systems with full P-V-T EoS for both phases, with a wide variety of EoS types. The EoS values of any minerals can be loaded into the program for calculations. EosFit-Pinc calculates the isomeke of possible entrapment conditions from the pressure of an inclusion measured when the host is at any external pressure and temperature (including room conditions), and it can calculate final inclusion pressures from known entrapment conditions. It also calculates isomekes and isochors of the two phases.