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Dr. Katherine Shirley (she/her)

Postdoctoral Research Assistant

Sub department

  • Atmospheric, Oceanic and Planetary Physics

Research groups

  • Planetary surfaces
  • Solar system
  • Space instrumentation
katherine.shirley@physics.ox.ac.uk
Atmospheric Physics Clarendon Laboratory, room 315
  • About
  • Publications

Optimizing Filter Bandpass Selection for the Thermal Infrared Imager on ESA’s Comet Interceptor Mission

Copernicus Publications (2022)

Authors:

Katherine Shirley, Tristram Warren, Sara Faggi, Geronimo Villanueva, Silvia Protopapa, Kerri Donaldson Hanna, Tomas Kohut, Neil Bowles, Antti Nasila, Swati Thirumangalath
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Modeling Thermal Emission under Lunar Surface Environmental Conditions

The Planetary Science Journal IOP Publishing 3:7 (2022) 180-180

Authors:

Parvathy Prem, Benjamin T Greenhagen, Kerri L Donaldson Hanna, Katherine A Shirley, Timothy D Glotch

Abstract:

We studied a series of hermean lava analogs in the mid-infrared (2.5 μm–18 μm) to provide characteristic spectra for enstatite basalt, the Northern Volcanic Plains and Na-rich Northern Volcanic Plains. Our aim is to provide spectra for the interpretation of the data expected from Mercury from the MERTIS (MErcury Radiometer and Thermal Infrared Spectrometer) instrument on the ESA/JAXA BepiColombo mission. Bulk powder spectra show bands of glass with a dominating broad Si-O-Si stretching feature around 10 μm. Crystalline components are mainly enstatite and forsterite with Reststrahlen Bands (RBs) around 9.3 μm, 9.6–9.9 μm, 10.0 μm, and 10.3–10.7 μm. Increasing intensity of crystalline features in the spectra reflect the increase in the crystallites in glass with decreasing temperature of equilibration and quenching. Micro-FTIR data allowed to extract spectral of individual components and glass. The position of the Christiansen Feature (CF) has only a weak correlation with the degree of crystallinity. Correlations are observed between the Christiansen Feature (CF) and the bulk SiO2 content of the materials, as does the correlation of this feature with the compositional index SCFM = SiO2/(SiO2 + CaO + FeO + MgO) on an atomic basis. This study also confirms the correlation line of glass-rich, irradiated Mercury analogs in these systems (Weber et al.,2023), indicating a similar spectral response of the glass rich materials expected for the surface of Mercury. The position of the strongest silicate main band (MB) compared to the SiO2 content, confirms a trend for samples formed in experiments simulating high velocity impacts fall on a different trend line than analog samples formed in magmatic processes. A comparison of the results to an Earth-based hermean surface spectrum showed similarities to spectra obtained for NVP samples
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Visible and infrared spectral analysis of the Winchcombe Meteorite for comparison with planetary Surfaces

Proceedings of the 85th Annual Meeting of the Meteoritical Society (MetSoc 2022) Wiley 57:S1 (2022)

Authors:

Ka Shirley, Rj Curtis, Hc Bates, Aj King, Ne Bowles
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NASA's Lunar Trailblazer Mission: A Pioneering Small Satellite for Lunar Water and Lunar Geology

Institute of Electrical and Electronics Engineers (IEEE) 00 (2022) 1-14

Authors:

Bethany L Ehlmann, Rachel L Klima, Calina C Seybold, Andrew T Klesh, Mitchell H Au, Holly A Bender, C Lee Bennett, Diana L Blaney, Neil Bowles, Simon Calcutt, Djuna Copley-Woods, James L Dickson, Karim Djotni, Kerri Donaldson Hanna, Christopher S Edwards, Rory Evans, Emily Felder, Robert Fogg, Robert O Green, Gary Hawkins, Martha House, Samuel Islas, Gregory Lantoine, Sue Linch, Thomas McCaa, Ian McKinley, Trevor F Merkley, Jasper K Miura, Carle M Pieters, Wil Santiago, Elena Scire, Richard Sherwood, Katherine Shirley, Chris Smith, Michael Sondheim, Peter Sullivan, Jon Temples, David R Thompson, Kristian I Waldorff, Walton R Williamson, Tristam J Warren, Joshua L Wood, Shannon Zareh
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Particle Size Effects on Mid‐Infrared Spectra of Lunar Analog Minerals in a Simulated Lunar Environment

Journal of Geophysical Research Planets American Geophysical Union (AGU) 124:4 (2019) 970-988

Authors:

KA Shirley, TD Glotch
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