Namrah Habib

The Deployment of the Seismometer to Investigate Ice and Ocean Structure (SIIOS) in Northwest Greenland: An Analog Experiment for Icy Ocean World Seismic Deployments

Seismological Research Letters Seismological Society of America (SSA) 92:3 (2021) 2036-2049

Authors:

Angela G Marusiak, Nicholas C Schmerr, Daniella N DellaGiustina, Brad Avenson, S Hop Bailey, Veronica J Bray, Juliette I Brodbeck, Chris G Carr, Peter H Dahl, Namrah Habib, Erin C Pettit, Natalie Wagner, Renee C Weber

Author Correction: Shape of (101955) Bennu indicative of a rubble pile with internal stiffness

Nature Geoscience Springer Nature 13:11 (2020) 764-764

Authors:

OS Barnouin, MG Daly, EE Palmer, RW Gaskell, JR Weirich, CL Johnson, MM Al Asad, JH Roberts, ME Perry, HCM Susorney, RT Daly, EB Bierhaus, JA Seabrook, RC Espiritu, AH Nair, L Nguyen, GA Neumann, CM Ernst, WV Boynton, MC Nolan, CD Adam, MC Moreau, B Rizk, CY Drouet D’Aubigny, ER Jawin, KJ Walsh, P Michel, SR Schwartz, R-L Ballouz, EM Mazarico, DJ Scheeres, JW McMahon, WF Bottke, S Sugita, N Hirata, N Hirata, S-I Watanabe, KN Burke, DN DellaGiustina, CA Bennett, DS Lauretta

The Fukang pallasite: Characterization and implications for the history of the Main‐group parent body

Meteoritics & Planetary Science Wiley 54:8 (2019) 1781-1807

Authors:

Daniella N DellaGiustina, Namrah Habib, Kenneth J Domanik, Dolores H Hill, Dante S Lauretta, Yulia S Goreva, Marvin Killgore, Yang Hexiong, Robert T Downs

Abstract:

AbstractWe report the results of a study of the Fukang pallasite that includes measurements of bulk composition, mineral chemistry, mineral structure, and petrology. Fukang is a Main‐group pallasite that consists of semiangular olivine grains (Fo 86.3) embedded in an Fe‐Ni matrix with 9–10 wt% Ni and low‐Ir (45 ppb). Olivine grains sometimes occur in large clusters up to 11 cm across. The Fe‐Ni phase is primarily kamacite with accessory taenite and plessite. Minor phases include schreibersite, chromite, merrillite, troilite, and low‐Ca pyroxene. We describe a variety of silicate inclusions enclosed in olivine that contain phases rarely or not previously reported in Main‐group pallasites, including clinopyroxene (augite), tridymite, K‐rich felsic glass, and an unknown Ca‐Cr silicate. Pressure constraints determined from tridymite (<0.4 GPa), two‐pyroxene barometry (0.39 ± 0.07 GPa), and geophysical calculations that assume pallasite formation at the core–mantle boundary (CMB), provide an upper estimate on the size of the Main‐group parent body from which Fukang originated. We conclude that Fukang originated at the CMB of a large differentiated planetesimal 400–680 km in radius.

Publisher Correction: Craters, boulders and regolith of (101955) Bennu indicative of an old and dynamic surface

Nature Geoscience Springer Nature 12:5 (2019) 399-399

Authors:

KJ Walsh, ER Jawin, R-L Ballouz, OS Barnouin, EB Bierhaus, HC Connolly, JL Molaro, TJ McCoy, M Delbo’, CM Hartzell, M Pajola, SR Schwartz, D Trang, E Asphaug, KJ Becker, CB Beddingfield, CA Bennett, WF Bottke, KN Burke, BC Clark, MG Daly, DN DellaGiustina, JP Dworkin, CM Elder, DR Golish, AR Hildebrand, R Malhotra, J Marshall, P Michel, MC Nolan, ME Perry, B Rizk, A Ryan, SA Sandford, DJ Scheeres, HCM Susorney, F Thuillet, DS Lauretta

Craters, boulders and regolith of (101955) Bennu indicative of an old and dynamic surface

Nature Geoscience Springer Nature 12:4 (2019) 242-246

Authors:

KJ Walsh, ER Jawin, R-L Ballouz, OS Barnouin, EB Bierhaus, CHC Jr, JL Molaro, TJ McCoy, M Delbo', CM Hartzell, M Pajola, D Trang, E Asphaug, KJ Becker, CB Beddingfield, CA Bennett, WF Bottke, KN Burke, BC Clark, DN Dellagiustina, JP Dworkin, CM Elder

Abstract:

Small, kilometre-sized near-Earth asteroids are expected to have young and frequently refreshed surfaces for two reasons: collisional disruptions are frequent in the main asteroid belt where they originate, and thermal or tidal processes act on them once they become near-Earth asteroids. Here we present early measurements of numerous large candidate impact craters on near-Earth asteroid (101955) Bennu by the OSIRIS-REx (Origins, Spectral Interpretation, Resource Identification, and Security-Regolith Explorer) mission, which indicate a surface that is between 100 million and 1 billion years old, predating Bennu’s expected duration as a near-Earth asteroid. We also observe many fractured boulders, the morphology of which suggests an influence of impact or thermal processes over a considerable amount of time since the boulders were exposed at the surface. However, the surface also shows signs of more recent mass movement: clusters of boulders at topographic lows, a deficiency of small craters and infill of large craters. The oldest features likely record events from Bennu’s time in the main asteroid belt.