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Claire Zurkowski
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Research Scientist <br>
  zurkowski1@llnl.gov <br>
  Office: 1-925-422-8121 <br>
<!--<a href="CV.pdf">CV in PDF format</a> -->
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<!--<b>Exciting News! </b>
<p style="text-align:justify"> I was awarded as one of the Mineralogical Society of America's Distinguished Lecturers for the 2023-2024 academic year. 
  My award is specified as the Peter Buseck New Developments in Mineralogy and Petrology lecturer. I appreciate the opportunity to honor this name 
  and look forward to meeting many new faces in geology departments around US and Europe this year.
 <p>  -->
   
  
  <b>Research interests:</b>
<p style="text-align:justify"> Claire Zurkowski is a Postdoctoral Researcher in the 
  Equilibrium Physics at Extreme Conditions (EPEC) group at Lawrence Livermore 
  National Laboratory. She received her Ph.D. in Geophysical Sciences from the 
  University of Chicago in 2021 and was a Postdoctoral Fellow at the Earth and Planets 
  Laboratory, Carnegie Institution of Washington before joining EPEC in 2022. 
  Claire specializes in high-pressure-temperature mineralogy, equations of state, 
  and melting. She has explored a range of topics in planetary sciences: 
  including, the light element composition of Earth and planetary cores, 
  chemical interactions at Earth’s core-mantle boundary, the thermodynamic history of 
  meteorites and terrestrial diamond inclusions, and the ultra-high pressure equations of 
  state of planetary building blocks.      
 <p>
<!-- Sulfur is a primary alloying element in Earth's core and
investigating the iron-sulfide phase relations at high pressures and temperatures is
integral to constraining core chemistry and dynamics. Over the course of my PhD,
I have combined powder and multigrain X-ray diffraction techniques up to 200 GPa and
3500 K with scanning electron microscopy of recovered samples to examine Fe–S and Fe–S–O
phase relations. This work has revealed the complexity of the Fe–S system under
extreme conditions and the stability of several new Fe-rich sulfide structures.
 <p>
 -->

<b>Professional Experience:</b><p>
[2024 - present] Equilibrium Physics at Extreme Conditions - Research Scientist, Lawrence Livermore National Labtoratory </p>
[2022 - 2024] Equilibrium Physics at Extreme Conditions - Postdoctoral Researcher, Lawrence Livermore National Labtoratory, working with Zsolt Jenei. </p>
[2022 - present] Visiting Scientist, Earth and Planets Laboratory, Carnegie Institution for Science, working with Yingwei Fei. </p>
[2021 - 2022] Postdoctoral Fellow, Earth and Planets Laboratory, Carnegie Institution for Science, working with Yingwei Fei. </p>

<b>Education:</b><p>
[2021] Ph.D. University of Chicago (Geophysical Sciences) </p>
<!--[2018-2021] PhD candidate at the Unviersity of Chicago (Mineral Physics)<br>
[2016-2018] Graduate student at the Unviersity of Chicago (Geophysical Sciences)<br>
-->
[2016] B.S. San Francisco State University (Geology)</p>
  
  
<b>Publications:</b><p>
Zurkowski C. C., Lim R. E., Pardo O. S., O’Bannon E. F., Glazyrin K., Soderlind P., Jenei Zs. 
  Improving equation of state calibrations in the toroidal DAC—the case study of molybdenum. Accepted, Journal of Applied Physics, 136, 075901. 
  <a href="https://doi.org/10.1063/5.0223794">DOI</a> (Editor's Pick) </p>
  
  Zurkowski C. C., Yang J., Miozzi F., Vitale S., O'Bannon III E. F., Jenei Z., Chariton S., Prakapenka V. B., and Fei Y. Exploring 
  toroidal anvil profiles for larger sample volumes above 4 Mbar. Scientific Reports, 14 <a href="https://doi.org/10.1038/s41598-024-61861-2">DOI</a> </p>
  
  Zurkowski C. C., Lavina B.,Prissel K., Chariton, S., Prakapenka V. B., and Fei Y. Structure
and titanium distribution of feiite characterized using synchrotron single-crystal X-ray
diffraction techniques. American Mineralogist, 109, 144-149. <a href="https://doi.org/10.2138/am-2022-8750">DOI</a> </p>
  
  Zurkowski C. C., Yang J., Chariton S., Prakapenka V. B., and Fei Y. (2022) Synthesis and stability of an 
  eight-coordinated Fe<sub>3</sub>O<sub>4</sub> high-pressure phase: Implications for the mantle structure of super-Earths. 
  Journal of Geophysical Research: Planets, 127, e2022JE007344. *Special Section: Exoplanets: 
  The Nexus of Astronomy and Geoscience. <a href="http://dx.doi.org/10.1029/2022JE007344">DOI</a> </p>
  
  Zurkowski C.C., Lavina B., Case A., Swadba K., Chariton S., Prakapenka V.B., and
 Campbell A.J. (2022) Fe<sub>5</sub>S<sub>2</sub> identified as a host for sulfur in Earth and planetary cores.
 Earth and Planetary Science Letters, 593, 117650. <a href="https://doi.org/10.1016/j.epsl.2022.117650">DOI</a> </p>

  Zurkowski C.C., Lavina B., Chariton S., Prakapenka V.B., and Campbell A.J. (2022) Stability of Fe<sub>2</sub>S and Fe<sub>12</sub>S<sub>7</sub> to 125 GPa–
   implications for S-rich planetary cores. Geochemical Perspectives Letters, 21, 47 - 52.
   <a href="https://doi.org/10.7185/geochemlet.2217">DOI</a></p>

Zurkowski C. C., Lavina B., Brauser N. M., Davis A. H., Chariton S., Tkachev S.,
Greenberg E., Prakapenka V. B., and Campbell A. J. (2022) Pressure-induced C23-C37 transition and compression
behavior of orthorhombic Fe<sub>2</sub>S to Earth's core pressures and high temperatures.
American Mineralogist: Journal of Earth and Planetary Materials, 107, 1878-1885.
 <a href="https://doi.org/10.2138/am-2022-8187">DOI</a></p>

  Zurkowski C.C., Lavina B., Chariton S., Greenberg E., Prakapenka V.B., and Campbell A.J. (2021)
  The crystal structure of Fe<sub>2</sub>S at 90 GPa based on single-crystal X-ray diffraction techniques.
  American Mineralogist: Journal of Earth and Planetary Materials, 107, 739-743. <a href="https://doi.org/10.2138/am-2022-7973">DOI</a></p>

  Zurkowski C. C., Lavina B., Chariton S., Greenberg E., Tkachev S. N., Prakapenka, V.B.,
  and Campbell A. J. (2020) The novel high-pressure/high-temperature compound Co<sub>12</sub>P<sub>7</sub> determined from synchrotron data.
  Acta Crystallographica E76, 1665-1668. <a href="https://doi.org/10.1107/S2056989020012657">DOI</a>
   </p>


<b>Book Chapters:</b><p>
  
  Zurkowski, C.C., and Fei, Y. (2023) Mineralogy of Planetary Cores. In Celebrating the International Year of 
  Mineralogy: Progress and Landmark Discoveries of the Last Decades (207-247). Cham: Springer Nature Switzerland.
   <a href="https://doi.org/10.1007/978-3-031-28805-0_9">DOI</a></p>
  







<!-- ><b>Professional Experience:</b><p>
[2019] Teaching Assistant for GEOS 21000 Mineralogy, University of Chicago <br>
[2018-Present] PhD candidate, University of Chicago's Laboratory of Mineral Physics <br>
[2016-2018] Graduate Student, University of Chicago's Laboratory of Mineral Physics <br>
[2016 ] Visiting Student, University of Chicago's Laboratory of Mineral Physics <br>
[2015-2016] Field and Research Assistant, San Francisco State University <br>
[2015] Research Assistant, United States Geological Society, Menlo Park <br>
[2014-2015] Research Assistant, Isotope Geochemistry Laboratory,The University of Maryland</p>
-->

<b>Invited Talks</b><p>
   [2024] University of California, Los Angeles, <br> "Progress in synchrotron multigrain X-ray diffraction techniques-- Exploring the petrology of deep planetary interiors" <br><br>
  [2024] Argonne National Lab <br> "Achieving quasihydrostatic equations of state in the toroidal diamond anvil cell-- The case study of Molybdenum" <br><br>  
  [2024] University of California, Berkeley, <br> "Crystallography and phase relations of iron sulfides at Earth and planetary core conditions" <br><br>  
  [2024] Southern Illinois University, <br> "Mysteries beyond our solary system-- Characterizing the mineralogical building blocks of rocky exoplanets" <br><br>
  [2024] University of Utah, <br> "Mysteries beyond our solary system-- Characterizing the mineralogical building blocks of rocky exoplanets" <br><br>
  [2024] University of Alabama Tuscaloosa, <br> "Progress in synchrotron multigrain X-ray diffraction techniques-- Exploring the petrology of deep planetary interiors" <br><br>
   [2024] University of Tennessee Knoxville, <br> "Mysteries beyond our solary system-- Characterizing the mineralogical building blocks of rocky exoplanets" <br><br>
  [2024] Oak Ridge National Laboratory, <br> "Mysteries beyond our solary system-- Characterizing the mineralogical building blocks of rocky exoplanets" <br><br>
  [2024] Boise State University, <br> "Mysteries beyond our solary system-- Characterizing the mineralogical building blocks of rocky exoplanets" <br><br>
  [2023] University of Lille, <br> "Progress in synchrotron multigrain X-ray diffraction techniques-- Exploring the petrology of deep planetary interiors" <br><br>
  [2023] University of Bristol, <br> "Progress in synchrotron multigrain X-ray diffraction techniques-- Exploring the petrology of deep planetary interiors" <br><br>
  
  [2023] Lafayette College, <br> "Mysteries beyond our solary system-- Characterizing the mineralogical building blocks of rocky exoplanets" <br><br>
  
  [2023] West Chester University, <br> "Mysteries beyond our solary system-- Characterizing the mineralogical building blocks of rocky exoplanets" <br><br>
  
  [2023] Macalester College, <br> "Mysteries beyond our solary system-- Characterizing the mineralogical building blocks of rocky exoplanets" <br><br>
  
[2023] American Geophysical Union, <br> "Assessment of the platinum, gold, and rhenium scales 
  at multimegabar pressures using new compression data from toroidal anvil experiments" <br><br>
  
[2023] IUCr Congress, <br> "Probing the interiors of Earth and planetary cores using synchrotron multigrain X-ray diffraction" <br><br>

[2022] IUCr High Pressure Workshop, <br> "Iron-sulfide crystallography at the extremes– 
Insights into rocky planetary cores" <br><br>
  
[2022] Lorentz Center Diversity of Rocky Exoplanets Workshop, <br> "Exoplanetary mineralogy and advances in experimental tools to probe exoplanetary deep
interiors" <br><br>
  
[2022] Lawrence Livermore National Laboratory, High-Pressure Physics Group, <br>
"Crystallography at the extremes: Insights into Earth and exoplanetary deep interiors"<br><br>

[2021] Carnegie Institution for Science, Experimental Petrology and Mineral Physics Group,<br>
"High P-T multigrain synthesis and the importance of powder and single crystal X-ray diffraction techniques"<br><br>

[2021] Carnegie Institution for Science, Experimental Petrology and Mineral Physics Group <br>
"Investigating the structural properties of Fe-rich sulfides to Earth’s core pressures and high temperatures"</p>


<b>Conference Presentations:</b><p>
Zurkowski C.C., O'Bannon E.F., Jenei Zs., Chariton S., Prakapenka V.B., and Fei Y.
Assessment of the platinum, gold, and rhenium scales at multi-megabar pressures using new compression data from toroidal anvil experiments, Abstract MR23A-03 presented at 
  2023 meeting, AGU,  Dec. 12 (Invited Oral Presentation)<br><br>
  
  Zurkowski C.C., Lavina B., Chariton S., Prakapenka V.B., and Fei Y. Exploring the iron content of bridgmanite and 
  post perovskite coexisting with iron metal at Earth's core mantle boundary, Abstract MR14A-07 presented at 
  2023 meeting, AGU,  Dec. 11 (Oral Presentation)<br><br>
  
  Zurkowski C.C., Yang J., Chariton S., Prakapenka V.B., and Fei Y. Synthesis of an eight-coordinated
Fe3O4 high-pressure phase: Implications for the mantle structure of super-
Earths, Abstract MR35A-07 presented at 2022 meeting, AGU,  Dec. 14 (Oral Presentation)<br><br>
  
Zurkowski C.C., Yang J., Chariton S., Prakapenka V.B., and Fei Y. Synthesis of an eight-coordinated
Fe3O4 high-pressure phase: Implications for the mantle structure of super-
Earths, presented at the 2022 Lorentz Center Workshop: Diversity of Rocky Exoplanets,
Leiden, 5-9 Sep. (Poster Presentation)<br><br>
  
Zurkowski C.C., Lavina, B., Yang J., Chariton S., Tkachev, S., Prakapenka V.B., and Fei Y.
Crystal structure of feiite determined by single-crystal
X-ray diffraction, presented
at 2022 meeting, IMA, Lyon, 18-22 Jul. (Oral Presentation, given by Yingwei Fei)<br><br>

Zurkowski C.C., Yang J., Chariton S., Prakapenka V.B., and Fei Y.
Synthesis of an eight-coordinated Fe3O4 high-pressure phase:
Implications for the mantle structure of super-Earths, presented
at 2022 meeting, ISoC, Erice, 3-11 Jun. (Poster Presentation)<br><br>

Zurkowski C.C., Yang J., Chariton S., Prakapenka V.B., and Fei Y.
Synthesis of an eight-coordinated Fe3O4 high-pressure phase:
Implications for the mantle structure of super-Earths. Abstract 1459 presented
at 2022 meeting, LPSC, 7-11 Mar. (Poster Presentation)<br><br>

Zurkowski, C.C., Swabda, K., Case, A., Lavina, B., Chariton, S., Greenberg E., Prakapenka V.B., and Campbell A.J. (2021)
Synthesis and characterization of a new complex iron sulfide at Earth’s outer core conditions. Abstract DI35D-0062 presented
at 2021 meeting, AGU,  Dec. 15 (Poster Presentation)<br><br>

Zurkowski, C.C., Lavina, B., Chariton, S., Greenberg E., Prakapenka V.B., and Campbell A.J. (2021)
Phase stability and structural properties of Fe<sub>2</sub>S and its analog Co<sub>2</sub>P
at high pressures and temperatures. Abstract EGU21-1862 presented
at 2021 meeting, EGU, 26 Apr. (Oral Presentation)<br><br>

Zurkowski, C.C., Lavina, B., Chariton, S., Greenberg E., Prakapenka V.B., and Campbell A.J. (2020)
Phase stability and structural properties of Fe<sub>2</sub>S and its analog Co<sub>2</sub>P
at high pressures and temperatures. Abstract MR024-05 presented
at 2020 meeting, AGU, 1-17 Dec. (Oral Presentation)<br><br>

Zurkowski, C.C., Davis A.E., Chariton, S., Prakapenka, V.B., and Campbell, A.J. (2020)
A hexagonal Fe<sub>3</sub>S phase at Earth's core conditions. Abstract. COMPRES Annual Meeting
(Oral Presentation) </p>

Zurkowski, C.C., Brauser, N.M., Greenberg, E., Prakapenka, V.B., and Campbell, A.J. (2019)
Phase stability and thermal equations of state of Fe<sub>3</sub>S and Fe<sub>2</sub>S polymorphs to Earth’s
core conditions Abstract DI13A-05 presented
at 2019 meeting, AGU, Washington, D.C., 9-13 Dec. (Oral Presentation)<br><br>

Zurkowski C.C., Brauser, N.M., Greenberg, E., Prakapenka, V.B., and Campbell, A.J. (2019)
Phase stability and thermal equations of state of Fe<sub>3</sub>S and Fe<sub>2</sub>S polymorphs to Earth's
core pressures and high temperatures. Abstract. COMPRES Annual Meeting
(Poster Presentation) </p>

Zurkowski, C.C., Chidester, B.A., Greenberg, E., Prakapenka,
V.B., and Campbell, A.J.(2018) Phase relations in the Fe--S--O system to Earth and
planetary core conditions. Abstract MR42A-02 presented
at 2018 meeting, AGU, Washington, D.C., 10-14 Dec. (Oral Presentation)<br><br>

Zurkowski, C.C., Chidester, B.A., Greenberg, E., Prakapenka, V.B. and Campbell, A.J.
(2018) Stability of the high pressure phase Fe<sub>3</sub>(S,O)<sub>2</sub> to Earth and planetary core
conditions in the Fe-S-O system. Abstract. COMPRES Annual Meeting. (Oral Presentation)</p>

Zurkowski, C.C., Chidester, B.A., Greenberg, E., Prakapenka, V.B. and Campbell, A.J.
(2018) Stability of the high pressure phase Fe<sub>3</sub>(S,O)<sub>2</sub> to Earth and planetary core
conditions in the Fe-S-O system. Abstract. COMPRES Annual Meeting. (Poster Presentation)</p>

Zurkowski, C.C., Chidester, B.A., Davis, A.H., Brauser, N.M., Greenberg, E., Prakapenka,
V.B. and Campbell, A.J.(2017) Stability of the high pressure phases Fe<sub>3</sub>S<sub>2</sub> and Fe<sub>2</sub>S to
Earth's core pressures in the Fe-S-O and Fe-S-O-Si systems. Abstract MR54A-07 presented
at 2017 meeting, AGU, New Orleans, Louisiana, 10-15 Dec. (Oral Presentation)<br><br>

Zurkowski, C.C., Chidester, B.A., Davis, A.H., Brauser, N.M., Greenberg, E., Prakapenka,
V.B. and Campbell, A.J. (2017) Stability of the high pressure phase Fe<sub>3</sub>S<sub>2</sub> up to 175 GPa
in the Fe-S-O system. Abstract. COMPRES Annual Meeting. (Poster Presentation)</p>

<b>Awards:</b><p>
[2024] Editor's Pick, Journal of Applied Physics <br>
  [2024] Postdoc Poster Symposium Award, Lawrence Livermore National Laboratory <br>
  [2024] Publication Award in Physical and Life Sciences, Lawrence Livermore National Laboratory <br>
  [2023-2024] Mineralogical Society of America Distinguished Lecturer, Peter Buseck New Developments in Mineralogy and Petrology lecturer <br> 
[2021] Advances in synchrotron-based research towards understanding the structure, <br>
evolution, and dynamics of Earth and planetary interiors workshop postdoc participation award, APS <br>
[2020] Arts, Science + Culture Initiative Graduate Collaboration Grant awarded <br>
[2019] Student Presentation Award, COMPRES Annual Meeting <br>
[2018] Student Presentation Award, COMPRES Annual Meeting <br>
[2018-2021] NSF Graduate Research Fellowship <br>
[2017] Outstanding Student Paper Award, Mineral and Rock Physics, AGU Fall Meeting <br>
[2017] McCormick Fellowship, University of Chicago <br>
[2016] Department Honoree, San Francisco State University <br>
[2013-2016] Deans List, Pratt Institute, University of Maryland, San Francisco State University <br>
[2014] Distinguished Flying Cross Scholarship <br>
[2013] Presidential Scholarship, Pratt Institute <br>
[2013] Valedictorian, The John Carroll School <br>
[2013] Judith Resnik Award for Women in the Sciences <br>
[2013] William J. Sacco Award for Applied Mathematics Scholarship <br>
[2013] Math, Physics, and Art Student of the Year</p>

<b>Outreach:</b><p>
[2024] Elected member of the SEES (Synchrotron Earth and Environmental Science) user committee <br>
[2023] MSA distinguished lecturer <br>
[2023] AGU session chair <br>
[2023] Livermore family day tourguide <br>
[2022] Carnegie Trustee poster session presenter <br>
[2022] AGU session convener <br>
[2021] Advances in synchrotron-based research towards understanding the structure, <br>
evolution, and dynamics of Earth and planetary interiors workshop, APS, session chair <br>
[2020] Art-science interview with Notre  <br>
[2020] Art-science interview with Space Us  <br>
[2019] Art-science interview with UChicago News  <br>
[2019] Twitter account manager for AGU's Mineral and Rock Physics section  <br>
[2019] Instagram account manager for @ArtSciInitiative  <br>
[2019-2020] Vice Chair of COMPRES student planning committee  <br>
[2019-2020] AGU student representative for Mineral and Rock Physics <br>
[2018-2019] COMPRES student planning committee member <br>
[2018] Women in Graduate Science Student Leadership Team - University of Chicago - Geophysical Sciences representative <br>
[2018] Physical Sciences Divison Dean's Student Advisory Committee - University of Chicago - Geophysical Sciences representative <br>
[2017] Docent in the mineralogy and meteorite exhibitions of the Field Museum in Chicago <br>
[2017] Math and science tutor at the Marillac Social Center in Chicago<br>
[2016] UChicagoGrad Lab Tours (Featured Speaker)<br>
[2016] Upward Bound Tutoring Program serving high school students of low income families<br>
[2016] Argonne National Lab's Hour of Code volunteer at Peck Elementary School <br>
[2016] Mentor Matching Engine mentor for high school STEM students at the Illinois Science and Technology Institute </p>

<b>Press</b>
<p style="text-align:justify"> Check out this <a href="https://aps.anl.gov/APS-Science-Highlight/2022-08-15/fe-fes-phase-equilibria-and-eutectic-melting-relations-in">APS 
  highlight</a> on my recent paper published in Geochemical Perspectives Letters based on data collected at APS Sector 13 ID-D. </p>
  Check out this <a href="https://news.uchicago.edu/story/geologist-weaves-science-her-art-loom">UChicago News article</a> discussing the relationship
between my research and my textile design. An <a href="https://www.aps.anl.gov/APS-News/2019-04-11/aps-user-weaves-science-into-her-art-at-the-loom/2019-04-11/aps-user-weaves">edited version</a> 
of this article was also published by APS. </p>


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