Prelaunch performance evaluation of the cometary experiment MUPUS-TP

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Marczewski, W.; Schroer, K.; Seiferlin, K.; Usowicz, B.; Banaszkiewicz, M.; Hlond, M.; Grygorczuk, J.; Gadomski, S.; Krasowski, J.; Gregorczyk, W.; Kargl, G.; Hagermann, Axel; Ball, Andrew; Kuhrt, E.; Knollenberg, J.; Spohn, T.;
(2004)

This paper discusses test results obtained in both laboratory and terrestrial environment conditions for the “Multipurpose Sensors for Surface and Sub-Surface Science” Thermal Probe (MUPUS-TP), which has been developed for the European Space Agency Rosetta cometary rend... View more
  • References (17)
    17 references, page 1 of 2

    Banaszkiewicz, M., K. Seiferlin, T. Spohn, G. Kargl, and N. I. Ko¨mle (1997), A new method for the determination of thermal conductivity and thermal diffusivity from linear heat source, Rev. Sci. Instrum., 68(11), 4184 - 4190.

    Christoffel, D. A., and I. M. Calhaem (1969), A geothermal heat flow probe for in situ measurement of both temperature gradient and thermal conductivity, J. Phys. E, Ser. 2, 2, 457 - 465.

    Gregorczyk, W., B. Jancewicz, and W. Marczewski (1999), Titanium thin film thermometric sensors on multilayered Kapton foil substrate for the experiment MUPUS of the ESA cometary mission Rosetta, paper presented at 23rd International Microelectronics and Packaging Society (IMAPS) Conference, Kolobrzeg, Poland.

    Haas, C., J. Bareiss, and M. Nicolaus (2002), The surface energy balance and its importance for superimposed ice formation (SEBISUP), report, LSF Proj. NP-9/2001, Alfred-Wegener-Inst. fu¨ r Polar- und Meeresforschung (AWI), Bremerhaven, Germany, June.

    Hagermann, A. (1999), Die Ermittlung des oberfla¨chennahen Temperaturfeldes aus einer gesto¨rten Gradientenmessung: Zur Inversion planetarer Wa¨rmeflubmessungen unter besonderer Beru¨ck-sichtigung des Experiments MUPUS PEN-TP, Ph.D. thesis, Westfa¨lische Wilhelms-Univ. Mu¨nster, Mu¨nster.

    Hagermann, A., and T. Spohn (1999), A method to invert MUPUS temperature recordings for the subsurface temperature field of P/Wirtanen, Adv. Space Res., 23(7), 1333 - 1336.

    Healy, J. J., J. J. de Groot, and J. Kerstin (1976), The theory of the transient hot-wire method for measuring thermal conductivity, Physica C, 82, 392 - 468.

    Keihm, S. J. (1984), Interpretation of the lunar microwave brightness temperature spectrum: Feasibility of orbital heat flow mapping, Icarus, 60, 568 - 589.

    Kimball, B. A., and R. D. Jackson (1975), Soil heat flux determination: A null-alignment method, Agric. Meteorol., 15, 1 - 9.

    Ko¨mle, N. I., G. Kargl, K. Seiferlin, and W. Marczewski (2002), Measuring thermo-mechanical properties of cometary surfaces: In situ methods, Earth Moon Planets, 90, 269 - 282.

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