Zobrazeno 1 - 10
of 105
pro vyhledávání: '"C. M. Caudill"'
Publikováno v:
Earth and Space Science, Vol 7, Iss 4, Pp n/a-n/a (2020)
Abstract In 2022, the European Space Agency and Roscosmos will launch the ExoMars rover, with the scientific objective to detect evidence of life within the Martian surface via the deployment of a 2 m drill. The ExoMars Pasteur payload contains sever
Externí odkaz:
https://doaj.org/article/5d133012d9914bcb8eaf3d4ca76208a3
Autor:
Roberta L. Flemming, Gordon R. Osinski, Livio L. Tornabene, Bethany L. Ehlmann, Rebecca N. Greenberger, C. M. Caudill, Fred J. Longstaffe
Publikováno v:
Meteoritics & Planetary Science. 56:404-422
The impact melt‐bearing breccias at the Ries impact structure, Germany, host degassing pipes: vertical structures that are inferred to represent conduits along which gases and fluids escaped to the surface, consistent with hydrothermal activity tha
Autor:
S. L. Simpson, Gordon R. Osinski, Anna Grau Galofre, E. Godin, Livio L. Tornabene, J. T. Poitras, C. M. Caudill, Anna Mittelholz, Melissa Battler, R. Francis, Matthew Svensson, V. Hipkin, Z. R. Morse, T. Haltigin, Eric A. Pilles, Alexandra Pontefract, Tianqi Xie
Publikováno v:
Planetary and Space Science. 172:43-56
The CanMars Mars sample return (MSR) analogue mission was conducted as a field and operational test for the Mars 2020 sample cache rover mission and was the most realistic known MSR rover analogue mission to-date. A rover — similar in scale to that
Autor:
Elisabeth M. Hausrath, S. J. Ralston, Ryan McCoubrey, David Beaty, Joseph Parrish, C. M. Caudill, V. Hipkin, Catherine Maggiori, R. Hansen
Publikováno v:
Planetary and Space Science. 171:34-49
This paper reports on a one day field validation exercise that took place in the context of the 2016 Canadian Space Agency-led Mars Sample Return Analogue Deployment. Here, a “human” field team using traditional geological methods was given the s
Autor:
Gordon R. Osinski, P. J. A. Hill, Z. R. Morse, Livio L. Tornabene, J. D. Newman, Byung-Hun Choe, E. M. Harrington, P. A. Christoffersen, C. M. Caudill
Publikováno v:
Planetary and Space Science. 168:15-26
The CanMars Mars Sample Return (MSR) analogue mission was a high-fidelity rover campaign conducted over a total of five weeks in November 2015 and November 2016. The analogue mission team consisted of a Mission Control Team located at the University
Autor:
Derek King, T. Haltigin, A. Bina, C. L. Marion, Jackie Goordial, Racel Sopoco, E. A. Lymer, Tom Dzamba, Anna Grau Galofre, E. M. Harrington, Martin Picard, R. Francis, K. Balachandran, C. M. Caudill, Liam Robert John Innis, P. A. Christoffersen, S. Duff, Elizabeth A. Silber, Alexandra Pontefract, Joshua Laughton, Rebecca Wilks, M. C. Kerrigan, Yaozhu Li, Edward A. Cloutis, Dylan Hickson, Daniel Bednar, Kristen Cote, C. H. Ryan, Tanya N. Harrison, Omar Draz, M. Bourassa, Tianqi Xie, Paul Fulford, Melissa Battler, Ian Pritchard, J. W. O’Callaghan, E. Godin, Eric A. Pilles, Matthew Svensson, Matthew Maloney, Sarah Mcfadden, Matthew Cross, P. Patel, David Beaty, J. D. Newman, John Maris, Scott M. McLennan, Kenneth H. Williford, Pierre Allard, Fenge Cao, Haley M. Sapers, Alexis David P. Pascual, Bryce Dudley, Diego Uribe, V. Hipkin, Z. R. Morse, Anna Mittelholz, Taylor Haid, W. Zylberman, Bianca D'Aoust, Catherine Maggiori, J. T. Poitras, Byung-Hun Choe, Gordon R. Osinski, Livio L. Tornabene, J. Hawkswell, P. J. A. Hill, Jonathan Kissi, G. D. Tolometti, S. L. Simpson, Joseph Nsasi Bakambu
Publikováno v:
Planetary and Space Science. 166:110-130
The return of samples from known locations on Mars is among the highest priority goals of the international planetary science community. A possible scenario for Mars Sample Return (MSR) is a series of 3 missions: sample cache, fetch, and retrieval. T
Autor:
Michael Daly, C. H. Ryan, P. A. Christoffersen, Gordon R. Osinski, Eric A. Pilles, Livio L. Tornabene, E. Godin, C. M. Caudill, M. Bourassa
Publikováno v:
Planetary and Space Science. 165:57-74
In 2009, the Canadian Space Agency funded a project to create a field-deployable high-resolution microscope with 3D and multispectral capabilities. The instrument, called the Three-dimensional Exploration Multispectral Microscopic Imager, or TEMMI, w
Autor:
Scott M. McLennan, J. D. Newman, M. C. Kerrigan, Kenneth H. Williford, R. Francis, Melissa Battler, M. Bourassa, T. Haltigin, C. M. Caudill, Elizabeth A. Silber, Eric A. Pilles, Matthew Cross, V. Hipkin, Gordon R. Osinski
Publikováno v:
Planetary and Space Science. 165:250-259
Approaches to rover mission operations were investigated in the framework of the CanMars Mars Sample Return (MSR) analogue mission deployments. Improving the efficiency of operations is a necessity for future planetary missions, including Mars 2020,
Publikováno v:
Icarus. 314:175-194
Bakhuysen Crater is a Late Noachian to Early Hesperian age ∼150 km-diameter impact structure located in the heavily cratered southern highlands of Mars. It is one of the largest craters on Mars with well-preserved ejecta deposits. Impact ejecta dep
Publikováno v:
Chemical Geology. 588:120639
The peak-ring of the 66 Ma, ~180 km Chicxulub impact structure in the northern Yucatan peninsula and southern Gulf of Mexico was sampled during the International Ocean Discovery Program and International Continental Scientific Drilling Program (IODP