M
Max K. Wallis
Researcher at University of Buckingham
Publications - 96
Citations - 1765
Max K. Wallis is an academic researcher from University of Buckingham. The author has contributed to research in topics: Comet & Halley's Comet. The author has an hindex of 19, co-authored 95 publications receiving 1709 citations. Previous affiliations of Max K. Wallis include Cardiff University.
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Journal ArticleDOI
C, N, O isotope fractionation on Mars: implications for crustal H2O and SNC meteorites
TL;DR: A re-examination of mechanisms losing nitrogen to space shows that currently operating chemical processes alone give a fractionation ratio for15N :14N of 0.69-0.75: combining this with the diffusive separation gives the ratio of escape rates as 0.53 −0.62.
Journal ArticleDOI
Air pollution: a threat to the health of our children.
Hanns Moshammer,Alena Bartonova,Wojtek Hanke,Peter van den Hazel,Janna G. Koppe,Ursula Krämer,Roberto Ronchetti,Radim J. Sram,Max K. Wallis,Peter Wallner,Moniek Zuurbier +10 more
TL;DR: The scientific evidence is presented for mortality, morbidity, and sub‐clinical effects from epidemiology and toxicology leading to recommendations on how to protect children from air pollution.
Proceedings ArticleDOI
Astrobiology of comets
TL;DR: In this paper, the thermal history of a cometary body, regarded as an assemblage of boulders, dust, ices and organics, as it approaches a perihelion distance of -IAU, is discussed.
Journal ArticleDOI
The Giotto magnetometer experiment
Fritz M. Neubauer,M H Acuna,L. F. Burlaga,B. Franke,B. Gramkow,F. Mariani,G. Musmann,Norman F. Ness,Hauke Schmidt,R. Terenzi,E. Ungstrup,Max K. Wallis +11 more
TL;DR: The Giotto magnetometer experiment employs a low-mass (1.357 kg), low-power (818 mW) instrument in a dual magnetometer configuration using flux gate sensors of the ring core type as mentioned in this paper.
Journal ArticleDOI
Collisional heating of interplanetary gas: Fokker-Planck treatment
TL;DR: In this article, the Boltzmann equation is set up with linear Fokker-Planck terms describing the glancing elastic collisions, and solutions combining the dynamical effects of the central force field and the diffusion in velocity space are derived, appropriate to cool gas.