Stony Brook University Vibrational Spectroscopy Laboratory


* denotes a student author

[76]Young, K. E., J. E. Bleacher, A. D. Rogers, W. B. Garry, A. McAdam, C. Evans, P. Whelley, S. Scheidt, and T. D. Glotch (2017), The incorporation of field portable instrumentation into crewed planetary surface exploration, Acta Astronautica, manuscript in preparation.

[75]Jaret, S. J.*, M. Sims*, J. R. Johnson, and T. D. Glotch (2017), Spectroscopic and petrographic comparison of experimentally shocked albite, andesine, and bytownite, J. Geophys. Res., manuscript in preparation.

[74]Sims, M.*, S. J. Jaret*, E.-R. Carl, B. Rhymer*, N. Schrodt, V. Mohrholz, J. Smith, Z. Knopkova, H.-P. Liermann, T. D. Glotch, and L. Ehm (2017), Pressure-induced amorphization in plagioclase feldspars: A time-resolved powder diffraction study during rapid compression, Earth Planet. Sci. Lett., in review.

[73]Farrand, W. H., S. W. Wright, T. D. Glotch, C. Schroder, E. C. Sklute, and M. D. Dyar (2017), Spectroscopic examinations fo hydro- and glaciovolcanic basaltic tuffs: Modes of alteration and relevance for Mars, Icarus, in review.

[72]Jaret, S. J.*, S. R. Hemming, E. T. Rasbury, L. M. Thompson, T. D. Glotch, and J. G. Spray (2017), What argon ages of maskelynite mean and don't mean: Implications for martian meteorites, in review.

[71]Mustard, J. F. and T. D. Glotch (2017), Theory of Reflectance and Emittance Spectroscopy of Geologic Materials in the Visible and Infrared Regions, In: J. Bishop, J. Moersch, and J. F. Bell III (Eds.) Remote Compositional Analysis, Cambridge University Press, Cambridge, accepted.

[70]Boyce, J. M., T. Giguere, P. Mouginis-Mark, T. D. Glotch, and G. J. Tayolor (2017), Geology of the Mairan middle dome: Implications for silicic volcanism on the Moon, Planet. Space Sci., in review.

[69]Braden, S. E., M. S. Robinson, S. Lawrence, B. R. Hawke, T. A. Giguere, and T. D. Glotch (2017) The Gruithuisen domes: Age and morphology of silicic nonmare volcansim, Icarus, in review.

[69]Huang, H., E. C. Sklute, K. A. Lehuta, K. R. Kittilstved, T. D. Glotch, M. Liu, and P. G. Khalifah (2017), Influence of thermal annealing on free carrier concentration in (GaN)1-x(ZnO)x semiconductors, J. Phys. Chem., in press.

[67]Lucey, P. G., D. Trang, J. R. Johnson, and T. D. Glotch (2017), Derivation of optical constants for nanophase hematite and application to modeled abundances from in situ martian reflectance spectra, Icarus, in press.

[66]Michalski, J. R., T. D. Glotch, L. Friedlander, M. D. Dyar, D. L. Bish, T. G. Sharp, and J. Carter (2017), Shock metamorphism of clay minerals on Mars by meteor impact, Geophys. Res. Lett., 44, 6562-6569.

[65]Zhao, J.*, L. Xiao, L. Qiao, T. D. Glotch, and Q. Huang (2017), The Mons Rumker Volcanic Complex of the Moon: A candidate landing site for the Chang'E-5 mission, J. Gepophys. Res., 122, 1419-1442, doi:10.1002/2016JE005247.

[64]Huang, H., D. M. Colabello, E. C. Sklute, T. D. Glotch, and P. G. Khalifah (2017), Self-referenced method for estimating refractive index and absolute absorption of loose semiconductor powders, Chem. Mat., 29, 4632-4640, doi:10.1021/acs.chemmater.6b04463.

[63]Ito, G.*, J. A. Arnold, and T. D. Glotch (2017), T-Matrix and radiative transfer hybrid models for densely packed particulates at mid-infrared wavelengths, J. Geophys. Res., 122, 822-238, doi:10.1002/2017JE005271.

[62]Jones, A. J., L. Bleacher, J. Bleacher, T. Glotch, K. Young, B. Selvin, and R. Firstman (2016), Connecting the next generation of science journalists with scientists in action, GSA Today, 27, 44-45, doi:10.1130/GSATG294GW.1.

[61]Jaret, S. J.*, B. L. Phillips, D. T. King Jr., T. D. Glotch, Z. Rahman, and S. P. Wright (2017), An unusual occurrence of coesite at the Lonar Crater, India, Met. Planet. Sci., 52, 147-163, doi:10.1111/maps.12745.

[60]Donaldson Hanna, K. L., B. T. Greenhagen, W. M. Patterson III, C. M. Pieters, J. F. Mustard, N. E. Bowles, D. A. Paige, T. D. Glotch, and C. Thompson (2017), Effects of varying environmental conditions on emissivity spectra of bulk lunar soils: Application to Diviner thermal infrared observations of the Moon, Icarus, 283, 326-342.

[59]Lucey, P. G., B. T. Greenhagen, E. Song, J. A. Arnold, M. Lemelin, K. Donaldson Hanna, N. Bowles, T. D. Glotch, and D. A. Paige (2017), Space weathering effects in Diviner Radiometer measurements of the lunar Christiansen Feature: Characteristics and mitigation, Icarus, 283, 343-351.

[58]Liu, Y., T. D. Glotch, N. Scudder*, M. Kraner*, T. Condus*, R. Arvidson, E. Guinness, M. Wolff, and M. Smith (2016), End member identification and spectral mixture analysis of CRISM hyperspectral data: A case study on southwest Melas Chasma, Mars, J. Geophys. Res., 121, 2004-2036.

[57]Friedlander, L.*, T. D. Glotch, B. Phillips, J. Vaughn*, and J. R. Michalski (2016), Examining structural and related spectral change in Mars-relevant phyllosilicates after experimental impacts between 10-40 GPa, Clay. Clay Min., 64, 189-209.

[56]Arnold, J. A.*, T. D. Glotch, P. G. Lucey, E. Song, I. R. Thomas, and N. E. Bowles (2016), Lunar olivine as seen by Diviner and M3: A Comparison of MIR and VNIR spectral data, J. Geophys. Res., 121, 1342-1361, doi:10.1002/2015JE004874.

[55]Farrand, W. H., S. P. Wright, A. D. Rogers, and T. D. Glotch (2016), Basaltic glass formed from hydrovolcanic and impact processes: Characterization and clues for detection of mode of origin from VNIR through TIR reflectance spectroscopy, Icarus, 275,16-28.

[54]Sutter, B., R. C. Quinn, P. D. Archer, D. P. Glavin, T. D. Glotch, S. Kounaves, M. M. Osterloo, E. Rampe, and D. W. Ming (2017), Measurements of oxychlorine species on Mars, Int. J. Astrobio., 16, 203-217.

[53]Ashley, J. W., M. S. Robinson, J. D. Stopar, T. D. Glotch, B. R. Hawke, S. J. Lawrence, B. L. Jolliff, H. Hiesinger, C. H. van der Bogert, B. T. Greenhagen, and D. A. Paige (2016), The Lassell Massif - a silicic lunar volcano, Icarus, 273, 248-261.

[52]Hardgrove, C. J., A. D. Rogers, T. D. Glotch, and J. A. Arnold* (2016), Thermal emission spectroscopy of microcrystalline sedimentary phases: Effects of natural surface roughness on spectral feature shape, J. Geophys. Res., 121, 542-555.

[51]Glotch, T. D., J. L. Bandfield, J. A. Arnold*, M. J. Wolff, and C. Che (2016), Constraining the composition and grain size of salt-bearing deposits on Mars, J. Geophys. Res., 121, 454-471.

[50]Cloutis, E. A., P. Mann, M. R. M. Izawa, D. M. Applin, C. Samson, R. Kruzelecky, T. D. Glotch, S. Mertzman, K. R. Mertzman, T. W. Haltigin, and C. Fry (2015), The Canadian Space Agency planetary analogue materials suite, Planet. Space. Sci., 119, 155-172.

[49]Friedlander, L. R.*, T. D. Glotch, D. L. Bish, M. D. Dyar, T. G. Sharp, E. C. Sklute, and J. R. Michalski (2015), Structural and spectroscopic changes to natural nontronite induced by experimental impacts between 10 and 40 GPa, J. Geophys. Res., 120, doi:10.1002/2014JE004638.

[48]Sklute, E. C.*, T. D. Glotch, J. Piatek, W. Woerner*, A. Martone*, and M. Kraner* (2015), Optical constants of synthetic potassium, sodium, and hydronium jarosite, Am. Miner., 100,1110-1122.

[47]Jaret, S. J.*, W. R. Woerner*, B. L. Phillips, L. Ehm, H. Nekvasil, S. P. Wright, and T. D. Glotch (2015), Maskelynite formation via solid-state transformation: Evidence of infrared and X-ray anisotropy, J. Geophys. Res.,120, 570-587, doi:10.1002/2014 JE004764.

[46]Glotch, T. D., J. L. Bandfield, P. G. Lucey, P. O. Hayne, B. T. Greenhagen, R. R. Ghent, J. A. Arnold*, and D. A. Paige (2015), Formation of lunar swirls by magnetic field standoff of the solar wind, Nature Communications, 6, 6189, doi:10.1038/ncomms7189.

[45]Arnold, J. A.*, T. D. Glotch, and A. M. Plonka* (2014), Mid-infrared optical constants of clinopyroxene and orthoclase derived from oriented single-crystal reflectance spectra, Am. Miner., 99, 1942-1955.

[44]Farrand, W. H., T. D. Glotch, and B. Horgan (2014), Detection of Copiapite in the northern Mawrth Vallis Region of Mars: Evidence of acid sulfate alteration, Icarus, 241, 346-357.

[43]Che, C., and T. D. Glotch (2014), Thermal alteration: A possible reason for the inconsistency between OMEGA/CRISM and TES detections of phyllosilicates on Mars?, Geophys. Res. Lett., 41, 321-327, doi:10.1002/2013GL058649.

[42]Lawrence, S. J., J. D. Stopar, B. R. Hawke, B. T. Greenhagen, J. T. S. Cahill, J. L. Bandfield, B. L. Jolliff, B. W. Denevi, M. S. Robinson, T. D. Glotch, D. B. J. Bussey, P. D. Spudis, T. A. Giguere, and W. B. Garry (2013), Morphology and surface roughness of volcanic constructs in the Marius Hills, J. Geophys. Res., 118, 615-634.

[41]Glotch, T. D. and A. D. Rogers (2013), Evidence for magma-carbonate interaction beneath Syrtis Major, Mars, J. Geophys. Res., 118, 126-137, doi:10.1029/2012JE004230.

[40]Yang, B., P. Lucey, and T. D. Glotch (2013), Are large Trojan asteroids salty? An observational, theoretical, and experimental study, Icarus, 223, 359-366.

[39]Wilson, J. H.*, S. M. McLennan, T. D. Glotch, and E. R. Rasbury (2012), Pedogenic hematitic concretions from the Mesozoic New Haven Arkose, Connecticut: Implications for understanding Martian diagenetic processes, Chem. Geol., 312-313, 195-208.

[38]Che, C.*, and T. D. Glotch (2012), The effect of high temperatures on the mid-to-far-infrared emission and near-infrared reflectance spectra of phyllosilicates and natural zeolites: Implications for Martian exploration, Icarus, 218, 585-601.

[37]Smith, A. and 60 others (including T. D. Glotch) (2011), Lunar Net – A proposal in response to an ESA M3 call in 2010 for a medium sized mission, Experiment. Astron., 33, 587-644.

[36]Jensen, H. B.*, and T. D. Glotch (2011), Investigation of the near infrared spectral character of putative Martian chloride deposits, J. Geophys. Res., 116, E00J03, doi:10.1029/2011JE003887.

[35]Glotch, T. D., J. J. Hagerty, P. G. Lucey, B. R. Hawke, T. A. Giguere, J. A. Arnold*, J.-P. Williams, B. L. Jolliff, and D. A. Paige (2011), The Mairan Domes: Silicic volcanic constructs on the Moon, Geophys. Res. Lett., 38, L21204, doi:10.1029/2011GL049548.

[34]Lane, M. D., T. D. Glotch, M. D. Dyar, C. M. Pieters, R. Klima, T. Hiroi, J. L. Bishop, and J. Sunshine (2011), Midinfrared spectroscopy of synthetic olivines: Thermal emission, attenuated total reflectance, and spectral and diffuse reflectance studies of forsterite to fayalite, J. Geophys. Res., 116, E08010, doi:10.1029/2010JE003588.

[33]Jolliff, B. L., S. A. Wiseman, S. J. Lawrence, T. N. Tran, M. S. Robinson, B. R. Hawke, F. Scholten, J. Oberst, H. Hiesinger, C. van der Bogert, B. T. Greenhagen, T. D. Glotch, and D. A. Paige (2011), Non-mare silicic volcanism on the lunar farside at Compton-Belkovich, Nature Geosciences , 4, 566-571.

[32]Che, C.*, T. D. Glotch, D. L. Bish, J. R. Michalski, and W. Xu (2011), Spectroscopic study of the dehydration and dehydroxylation of phyllosilicate and zeolite minerals, J. Geophys. Res., 116, E05007, doi:10.1029/2010JE003740.

[31]Dyar, M. D., T. D. Glotch, M. D. Lane, B. Wopenka, J. M. Tucker, S. J. Seaman, G. J. Marchand, R. Klima, T. Hiroi, J. L. Bishop, C. Pieters, and J. Sunshine (2010), Spectroscopy of Yamato 984028, Polar Science, 4, 530-549.

[30]Glotch, T. D. (2010), News and Views: Hidden Martian Carbonates, Nature Geoscience, 3, 745-746.

[29]Paige, D. A., M. A. Siegler, J. A. Zhang, P. O. Hayne, B. T. Greenhagen, E. J. Foote, A. R. Vasavada, J. T. Schofield, D. J. McCleese, M. C. Foote, E. DeJong, B. M. Murray, C. C. Allen, K. Snook, L. A. Soderblom, F. W. Taylor, N. E. Bowles, J. L. Bandfield, R. C. Elphic, R. Ghent, T. D. Glotch, M. B. Wyatt, P. G. Lucey and W. Hartford (2010), Diviner observations of cold traps in the lunar south polar region: Spatial distribution and temperature, Science, 330, 479-482.

[28]Glotch, T. D., P. G. Lucey, J. L. Bandfield, B. T. Greenhagen, I. R. Thomas, R. C. Elphic, N. Bowles, M. B. Wyatt, C. C. Allen, K. Donaldson-Hanna, and D. A. Paige (2010), Highly silicic compositions on the Moon, Science, 329, 1510-1513.

[27]Greenhagen, B. T., P. G. Lucey, M. B. Wyatt, T. D. Glotch, C. C. Allen, J. A. Arnold*, J. L. Bandfield, N. E. Bowles, K. L. Donaldson Hanna, P. O. Hayne, I. R. Thomas, and D. A. Paige (2010), Global silicate mineralogy of the Moon from the Diviner Lunar Radiometer, Science, 329, 1507-1509.

[26]Glotch, T. D., J. L. Bandfield, L. L. Tornabene, H. B. Jensen*, and F. P. Seelos (2010), Distribution and formation of chlorides and phyllosilicates in Terra Sirenum, Mars, Geophys. Res. Lett., 37, L16202, doi:10.1029/2010GL044557.

[25]Lichtenberg, K. A., R. E. Arvidson, R. V. Morris, S. L. Murchie, J. L. Bishop, D. Fernandez-Remolar, T. D. Glotch, E. N. Dobrea, J. F. Mustard, J. Andrews-Hanna, and L. H. Roach (2010), Stratigraphy of hydrated sulfates in the sedimentary deposits of Aram Chaos, Mars, J. Geophys. Res., 115, E00D17, doi:10.1029/2009JE0003353.

[24]Farrand, W. H., T. D. Glotch, J. W. Rice, J. Hurowitz, and G. Swayze (2009), Discovery of jarosite-bearing surfaces within the Mawrth Vallis region of Mars: Implications for the geologic history of the region, Icarus, 204, 478-488.

[23]Glotch, T. D., and G. R. Rossman (2009), Mid-infrared spectra and optical constants of six iron oxide/oxyhydroxide phases, Icarus, 204, 663-671.

[22]Bleacher, J. E., L. S. Glaze, R. Greeley, E. Hauber, S. M. Baloga, S. E. H. Sakimoto, D. A. Williams, and T. D. Glotch (2009), Spatial and alignment analyses for a field of small volcanic vents south of Pavonis Mons and implications for the Tharsis province, Mars, J. Volc. Geotherm. Res., 185, 96-102.

[21]Dyar, M. D., E. C. Sklute, O. N. Menzies, P. A. Bland, D. Lindsley, T. Glotch, M. D. Lane, M. W. Schaeffer, B. Wopenka, R. Klima, J. L. Bishop, T. Hiroi, C. Pieters, and J. Sunshine (2009), Spectroscopic characteristics of synthetic olivine: An integrated multi-wavelength and multi-technique approach, Am. Miner., 94, 883-898.

[20]Calvin, W. M. and 18 others (including T. D. Glotch) (2008), Hematite spherules at Meridiani: Results from MI, Mini-TES and Pancam, J. Geophys. Res., 113, E12S37.

[19]Glotch, T. D., and M. D. Kraft (2008), Thermal transformations of akaganéite and lepidocrocite to hematite: Assessment of possible precursors to Martian crystalline hematite, Phys. Chem. Min., 35, 569-581.

[18]Osterloo, M. M., V. E. Hamilton, J. L. Bandfield, T. D. Glotch, A. M. Baldridge, P. R. Christensen, L. L. Tornabene, and F. S. Anderson (2008), Chloride-bearing materials in the southern highlands of Mars, Science, 319, 1651-1654.

[17]Grant, J.A. and 10 others (including T. D. Glotch) (2008), HiRISE imaging of impact megabreccia and sub-meter aqueous strata in Holden Crater, Mars, Geology, 36, 195-198.

[16]Glotch, T. D., G. R. Rossman, and O. Aharonson (2007), Mid-infrared (5-100 µm) reflectance spectra and optical constants of 10 phyllosilicate minerals, Icarus, 192, 605-622.

[15]Glotch, T. D., and A. D. Rogers (2007), Aqueous deposition of hematite and sulfate-rich light-toned layered deposits in Aureum and Iani Chaos, Mars, J. Geophys. Res., 112, E06001, doi:10.1029/2006JE00286.

[14]Squyres, S. W. and 38 others (including T. D. Glotch) (2006), Overview of the Opportunity Mars Exploration Rover mission to Meridiani Planum: Eagle Crater to Purgatory Ripple, J. Geophys. Res., 111, E12S12, doi:10.1029/2006JE002771.

[13]Glotch, T. D., and J. L. Bandfield (2006), Determination and interpretation of surface and atmospheric Mini-TES spectral endmembers at the Meridiani Planum landing site, J. Geophys. Res., 111, E12S06, doi:10.1029/ 2005JE002671.

[12]Glotch, T. D., J. L. Bandfield, P. R. Christensen, W. M. Calvin, S. M. McLennan, B. C. Clark, A. D. Rogers, and S. W. Squyres (2006), The mineralogy of the light-toned outcrop at Meridiani Planum as seen by the Miniature Thermal Emission Spectrometer and implications for its formation, J. Geophys. Res., 111, E12S03, doi:10.1029/ 2005JE002672.

[11]Squyres, S. W. and 17 others (including T. D. Glotch) (2006), Two years at Meridiani Planum: Results from the Opportunity Rover, Science, 313, 1403-1407.

[10]Squyres, S. W. and 20 others (including T. D. Glotch) (2006), Bedrock formation at Meridiani Planum, Nature, 443, E1-E2.

[9]Glotch, T. D., P. R. Christensen, and T. G. Sharp (2006), Fresnel modeling of hematite crystal surfaces and application to martian hematite spherules, Icarus, 181, 408-418.

[8]McLennan, S. M. and 31 others (including T. D. Glotch) (2005), Provenance and diagenesis of the evaporate-bearing Burns formation, Meridiani Planum, Mars, Earth Planet. Sci. Lett., 240, 95-121.

[7]Glotch, T. D. and P. R. Christensen (2005), Geologic and mineralogic mapping of Aram Chaos: Evidence for a water-rich history, J. Geophys. Res., 110, E09006, doi:10.1029/ 2004JE002389.

[6]Soderblom, L. A. and 42 others (including T. D. Glotch) (2004), Soils of Eagle Crater and Meridiani Planum at the Opportunity Rover Landing Site, Science, 306, 1723-1726.

[5]Christensen, P. R., M.B. Wyatt, T. D. Glotch, and 24 others (2004), Initial Results from the Miniature Thermal Emission Spectrometer Experiment at the Opportunity Landing Site on Meridiani Planum, Science, 306, 1733-1739.

[4]Christensen, P. R. and 24 others (including T. D. Glotch) (2004), Initial Results from the Miniature Thermal Emission Spectrometer Experiment at the Spirit Landing Site in Gusev Crater, Science, 305, 837-842.

[3]Glotch, T. D., R. V. Morris, P. R. Christensen, and T. G. Sharp (2004), Effects of precursor mineralogy on the thermal infrared emission spectra of hematite: Application to martian hematite mineralization, J. Geophys. Res., 109, E07003, doi:10.1029/2003JE002224.

[2]Bandfield, J. L., T. D. Glotch, and P. R. Christensen (2003), Spectroscopic identification of carbonates in the martian dust, Science, 301, 1084-1087.

[1]Bottke, W. F. Jr., S. G. Love, D. Tytell, and T. Glotch (2000), Interpreting the elliptical crater populations on Mars, Venus, and the Moon, Icarus, 145, 108-121.