J. Pathak
York University
5 Papers
2 Citations
J. Pathak is an academic researcher from York University. The author has contributed to research in topics: Atmosphere & Mars Exploration Program. The author has an hindex of 4, co-authored 5 publications.
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Papers
Mars Water-Ice Clouds and Precipitation
James A. Whiteway,L. Komguem,Clive Dickinson,C. Cook,M. Illnicki,J. A. Seabrook,V. Popovici,Thomas J. Duck,Richard Davy,Peter A. Taylor,J. Pathak,David A. Fisher,A. I. Carswell,Michael Daly,V. Hipkin,Aaron P. Zent,Michael H. Hecht,S. E. Wood,L. K. Tamppari,Nilton O. Renno,John E. Moores,Mark T. Lemmon,Frank Daerden,Peter H. Smith +23 more
TL;DR: The analysis of the data from the Phoenix mission revealed an alkaline environment, in contrast to that found by the Mars Exploration Rovers, indicating that many different environments have existed on Mars.
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Simulating Martian boundary layer water ice clouds and the lidar measurements for the Phoenix mission
TL;DR: In this article, the diurnal variation of ground fog and water ice cloud formation at the NASA Phoenix lander site was investigated using a one-dimensional Mars Microphysical Model (MMM) coupled with the results from the one dimensional University of Helsinki atmospheric boundary layer model.
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Observations of Dust, Ice Water Clouds, and Precipitation in the Atmosphere of Mars
James A. Whiteway,L. Komguem,Clive Dickinson,C. Cook,M. Illnicki,V. Popovici,J. A. Seabrook,Michael Daly,A. I. Carswell,Peter A. Taylor,Richard Davy,J. Pathak,Carlos F. Lange,David A. Fisher,V. Hipkin,L. K. Tamppari,Mark T. Lemmon,Nilton O. Renno,Haraldur P. Gunnlaugsson,Line Drube,C. Holstein-Rathlou,Paul S. Smith +21 more
- 01 Dec 2008
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Phoenix and MRO coordinated atmospheric measurements
Leslie K. Tamppari,D. S. Bass,Bruce A. Cantor,Ingrid Daubar,Clive Dickinson,David A. Fisher,Ken Fujii,Haraldur P. Gunnlauggson,Troy L. Hudson,David M. Kass,Armin Kleinböhl,L. Komguem,Mark T. Lemmon,Michael T. Mellon,John E. Moores,Alexey A. Pankine,J. Pathak,M. L. Searls,Frank P. Seelos,Michael D. Smith,Sue Smrekar,Peter A. Taylor,C. Holstein-Rathlou,Wensong Weng,James A. Whiteway,M. J. Wolff +25 more
TL;DR: The Mars Reconnaissance Orbiter (MRO) and the Phoenix and Mars Lander (Phoenix) as discussed by the authors have collaborated in an unprecedented campaign to observe the northern polar region summer atmosphere throughout the Phoenix mission.
Modelling dust distributions in the atmospheric boundary layer on Mars
TL;DR: In this paper, a time and height dependent eddy diffusion model is used to investigate possible scenarios for the size distribution of dust in the lower atmosphere of Mars, where the dust is assumed to either have been advected from a distant source or to have originated locally.