JZ
Member Since 2009
Jin Zhang
associate professor, Texas A&M University College Station
Member, Mineral and Rock Physics OSPA Committee; President-Elect, Study of the Earth's Deep Interior Executive Committee; Section President-Elect, Council
Professional Experience
Texas A&M University College Station
associate professor
2022 - Present
University of New Mexico Main Campus
assistant professor
Education
University of Illinois at Urbana-Champaign
Doctorate
Honors & Awards
Mineral and Rock Physics Early Career Award
Received December 2023
Citation

Dr. Jin Zhang earned her B.S. in geology at Nanjing University in China in 2008 and her Ph.D. from the University of Illinois Urbana-Champaign in 2014. Following her Ph.D., she was a postdoctoral associate with Prof. Jay Bass, technology researcher for Consortium for Materials Properties Research in Earth Sciences (COMPRES), and assistant professor at the University of New Mexico. She is currently an associate professor at Texas A&M University.

Jin is an outstanding experimentalist in the field of high-pressure, high-temperature elasticity. Her primary research tool is Brillouin spectroscopy, but she is also broadly experienced in large- volume high-pressure work, petrology, and thermodynamics. She has studied a wide range of Earth and planetary materials by combining Brillouin spectroscopy with in situ synchrotron X-ray diffraction and investigated detailed compositional effects on elasticity of major crustal and mantle minerals at simultaneous high pressure and temperature. While her publications generally present highly specialized results, the implications are all directed to important outstanding

Earth science questions. In collaboration with seismologists, petrologists, and mineral physicists, she has made major advancements in modeling seismic properties of the upper mantle and the mantle transition zone, as well as subducted crust, with an ambitious goal to establish a 3D mineralogical model of Earth from surface to the center. So far, her high-quality elasticity data have enabled her to use lateral seismic velocity variation to place constraints on global lateral variations in wadsleyite proportion, temperature, and water content in the mantle transition zone. Jin is an excellent educator and an inspiration to young scientists. Two of her Ph.D. students’ work was recognized with the AGU Jamieson Student Paper Award and the Mineral and Rock Physics Graduate Research Award. Jin has actively participated and engaged in the mineral and rock physics community. She served as secretary of the Mineral and Rock Physics (MRP) section of AGU and was a member of the Education, Outreach, Infrastructure and Development Committee of COMPRES. In 2020, the University of New Mexico recognized her with its Women in STEM award. Jin is an excellent choice for the Mineral and Rock Physics Early Career Award, which recognizes the significance of her early-career accomplishments and anticipates further outstanding contributions in the future. Congratulations, Jin, on this well-deserved award!

Yanbin Wang, Center for Advanced Radiation Sources, University of Chicago, Chicago


Response
I am absolutely thrilled to be honored with the Mineral and Rock Physics Early Career Award this year, and I’m very grateful to my nominator, Yanbin Wang, and the AGU MRP section for this recognition. My career as a mineral physicist has been a wonderful endeavor, and I am immensely thankful to all my mentors, both formal and informal, who have guided me through this exhilarating path. Additionally, I am indebted to my friends, colleagues, and students who have accompanied and joined me through the highs and lows of my academic life. At Nanjing University, David Mainprice introduced me to the captivating realm of mineral and rock mechanics in a summer course he taught there. At the University of Illinois, my Ph.D. adviser and lifelong mentor Jay Bass not only provided invaluable guidance in developing, testing, and refining hypotheses with a wide range of technical skills, but also inspired me to be an enthusiastic and dedicated scientist. At Advanced Photon Source, Przemek Dera and many others there drew me into the exciting technical world of X-ray-related techniques. Upon joining the University of New Mexico and Texas A&M University, I consider myself extraordinarily fortunate to have met such exceptional colleagues and friends. Without their unwavering support, I would not have been able to achieve what I have thus far. Witnessing the success of my students, including Ming, Wenyi, Rose, Lacy, and many others, has been one of the most gratifying experiences of my life. For the past 15 years, since I made the decision to become a mineral physicist, I have always been surrounded by the cohesive and supportive mineral physics community. Collaboration within our community has always been enjoyable and fostered deep friendships. Many senior members of our community have not only offered boundless technical expertise and mental support, but also influenced me to a great extent in ways that I may not have realized until recently. Last, I want to express my heartfelt thanks to my parents, husband, and daughter for bringing immeasurable joy and happiness to my life. —Jin Zhang, Department of Geology and Geophysics, Texas A&M University, College Station
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Publications
Fast Seismic Anomalies Under Continents Explained by the Delaminated Lower Continental Crust—Implica...

Seismic tomography has shown that the shear wave velocities (Vs) under continents, especially under cratons, are extremely fast at 100–200...

April 26, 2024
AGU Abstracts
Insitu Deformation of Antigorite and Olivine 2-phase Mixtures and Its Implications for Seismic Anisotropy in the Mantle Wedge
AGU 2024
study of earth's deep interior | 10 december 2024
Wenhao Su, Rose Hurlow, Wen-Yi Zhou, Feng Lin, Low...
During slab subduction, water released by hydrated slabs reacts with the overlying mantle wedge, resulting in widespread serpentinization. The deforma...
View Abstract
Elasticity of end-member/Fe-bearing davemaoite and CaSiO3 glass at lower mantle pressures
PROBING EARTH AND PLANETARY MATERIALS UNDER EXTREME CONDITIONS II POSTER
mineral and rock physics | 13 december 2023
Jin Zhang, Wen-Yi Zhou, Ming Hao, Phuong Nguyen, D...
Davemaoite is the 3rd most abundant mineral in the Earths ambient lower mantle with close to the end-member CaSiO3 composition. It is also among the m...
View Abstract
High P-T sound velocities of amphiboles: Implications for low-velocity anomalies in metasomatized upper mantle
PROBING EARTH AND PLANETARY MATERIALS UNDER EXTREME CONDITIONS II POSTER
mineral and rock physics | 13 december 2023
Wen-Yi Zhou, Ming Hao, Dongzhou Zhang, Przemyslaw ...
Metasomatized mantle xenoliths containing hydrous minerals, such as amphiboles, serpentine, and phlogopite, likely represent the potential mineralogic...
View Abstract
Volunteer Experience
2025 - 2026
President-Elect
Study of the Earth's Deep Interior Executive Committee
2025 - 2026
Section President-Elect
Council
2024 - 2026
Member
Mineral and Rock Physics OSPA Committee
Check out all of Jin Zhang’s AGU Research!
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