People | Faculty
 |
Jibamitra
Ganguly
Professor,
Petrology, Physical Geochemistry, and Mineralogy |
My research covers a wide spectrum of topics in petrology, mineralogy,
tectonics, geochronology, geochemistry and planetary sciences, which
are related to the core theme of my research on thermodynamics, phase
equilibrium, and diffusion kinetics in relation to terrestrial and
planetary processes.
Research Projects
Long-term research projects are as follows:
- Diffusion kinetics, thermobarometry and tectono-metamorphic processes:
Fundamental aspects, modeling and applications
- Crystal kinetics (diffusion and order-disorder) and thermodynamic
studies of planetary materials, and integration with thermal modeling
to constrain the thermal histories of meteorite parent bodies,
early solar system chronology (using short-lived decay systems),
and size of planetesimals
- Closure-temperatures and -age profiles of minerals in cooling geochronological
systems, and applications to the thermochronology of terrestrial
and planetary problems
- Experimental and theoretical studies of the energetic properties
(thermodynamic, crystal chemical, diffusion and order-disorder) of
minerals
Some new projects include:
- Subduction zone dynamics: Interplay among the thermal and mineralogical
processes in the subduction zone environments, density structure
of subducting slab and surrounding mantle & implications for
plate subduction
- Mineral stabilities in the Earth's interior
- Trace element evolution
of magmas incorporating the diffusion kinetic and dynamic effects,
and their applications to constrain the source regions for magma
generation, extent of partial melting and magma dynamics
- Adiabatic melting process in the mantle and mantle plumes
Lab Facilities
- Two Piston-cylinder apparatii, one of which has a kiloton force
capacity (and can be converted to a multianvil press for experiments
to pressure of ~ 15 GPa)
- The kiloton press is equipped with facilities for insitu differential
thermal analysis (DTA) studies to determine melting temperature
as a function of pressure, compressibility measurements, and controlled
heating-cooling experiments at high pressure
- Many hydrothermal apparatii for experiments at low pressure including
rapid quench experiments
- Controlled gas atmosphere furnaces with controlled heating-cooling
facilities
- A thermogravimetric setup for insitu reaction kinetic study by
continuous monitoring of weight loss
- Powder x-ray diffractometer
- Thin film deposition set up
Supporting Facilities
- Mineral Physics Laboratory (Dr. Robert F. Downs): 2 four circle
single crystal x-ray diffractometers, Raman spectroscope, Diamond
cells
- Chemistry Department: An area detector single crystal diffractometer
(routinely used by us)
- Planetary Science: Multi-anvil press (Prof. Mike Drake), Electron
microprobe (joint facility)
- Arizona State University : Ion probe (long-term collaborator: Dr.
Rick Hervig)
Publications (1995
-)
Recent CV
Office:
Gould-Simpson Bldg. 532
Phone: 520-621-6006
Fax: 520-621-2672
E-mail: ganguly@email.arizona.edu
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