Dynamic Albedo of Neutrons (DAN) Experiment Onboard NASA’s Mars Science Laboratory

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• 作者：I. G. Mitrofanov (1) imitrofa@space.ru
  M. L. Litvak (1)
  A. B. Varenikov (1)
  Y. N. Barmakov (2)
  A. Behar (3)
  Y. I. Bobrovnitsky (4)
  E. P. Bogolubov (2)
  W. V. Boynton (5)
  K. Harshman (5)
  E. Kan (3)
  A. S. Kozyrev (1)
  R. O. Kuzmin (1)
  A. V. Malakhov (1)
  M. I. Mokrousov (1)
  S. N. Ponomareva (4)
  V. I. Ryzhkov (2)
  A. B. Sanin (1)
  G. A. Smirnov (2)
  V. N. Shvetsov (6)
  G. N. Timoshenko (6)
  T. M. Tomilina (4)
  V. I. Tret’yakov (1)
  A. A. Vostrukhin (1)
• 关键词：Mars exploration – Detection of water – Active neutron experiment
• 刊名：Space Science Reviews
• 出版年：2012
• 出版时间：September 2012
• 年：2012
• 卷：170
• 期：1-4
• 页码：559-582
• 全文大小：1.1 MB
• 参考文献：1. I. Adler, J.I. Trombka, Geochemical Exploration of the Moon and the Planets (Springer, New York, 1970)
  2. H. Akkurt, J.L. Groves, J. Trombka, R. Starr, L. Evans, S. Floyd, R. Hoover, L. Lim, T. McClanahan, R. James, T. McCoy, J. Schweitzer, Pulsed neutron generator system for astrobiological and geochemical exploration of planetary bodies. Nucl. Instrum. Methods Phys. Res. 241, 232–237 (2005)
  3. J.R. Arnold, A.E. Metzger, E.C. Anderson, M.A. van Dilla, Gamma rays in space. J. Geophys. Res. 67, 4878–4880 (1962)
  4. W.V. Boynton, W.C. Feldman, S.W. Squyres, T.H. Prettyman, J. Brückner, L.G. Evans, R.C. Reedy, R. Starr, J.R. Arnold, D.M. Drake, P.A. Englert, A.E. Metzger, I.G. Mitrofanov, J.I. Trombka, C. d’Uston, H. Wanke, O. Gasnault, D.K. Hamara, D.M. Janes, R.L. Marsialis, S. Maurice, I. Mikheeva, G.J. Taylor, R. Tokar, C. Shinohara, Distribution of hydrogen in the near surface of Mars: evidence for subsurface ice deposits. Science 297, 81–85 (2002)
  5. W.V. Boynton, W.C. Feldman, I.G. Mitrofanov, L.G. Evans, R.C. Reedy, S.W. Squyres, R. Starr, J.I. Trombka, C. d’Uston, J.R. Arnold, P.A.J. Englert, A.E. Metzger, H. Wanke, J. Bruckner, D.M. Drake, C. Shinohara, C. Fellows, D.K. Hamara, K. Harshman, K. Kerry, C. Turner, M. Ward, H. Barthe, K.R. Fuller, S.A. Storms, G.W. Thornton, J.L. Longmire, M.L. Litvak, A.K. Ton’chev, The Mars Odyssey gamma-ray spectrometer instrument suite. Space Sci. Rev. 110, 37–83 (2004)
  6. M.W. Busch, O. Aharonson, Measuring subsurface water distribution using the dynamic albedo of neutrons instrument on Mars science laboratory. Nucl. Instrum. Methods Phys. Res. 592, 393–399 (2009)
  7. D. De Soete, R. Gijbels, J. Hoste, Neutron Activation Analysis (Wiley, New York, 1972). ISBN-10 0471203904
  8. B. Diez et al., Contribution of Mars Odyssey GRS at Central Elysium planitia. Icarus 200, 19–29 (2009)
  9. D.M. Drake, W.C. Feldman, B.M. Jakosky, Martian neutron leakage spectra. J. Geophys. Res. 93, 6353–6368 (1988)
  10. d’Uston, J.-L. Attea, C. Barat, A. Chernenko, V. Dolidze, A. Dyatchkov, E. Jourdain, V. Khariukova, N. Khavenson, A. Kozlenkov, R. Kucherova, I. Mitrofanov, M. Niel, A. Pozanenkio, P. Scheglov, Yu. Surkov, A. Vilchinskaya, Observations of the gamma-ray emission from the martian surface by the APEX experiment. Nature 431, 598–600 (1989)
  11. D.V. Ellis, J.M. Singer, Well Logging for Earth Scientists, Pulsed Neutron Spectroscopy (Springer, Berlin, 2007), pp. 383–414. doi:
  12. L.G. Evans, R.D. Starr, J. Bruckner, R.C. Reedy, W.V. Boynton, J.I. Trombka, J.O. Goldsten, J. Masarik, L.R. Nittler, T.J. McCoy, Elemental composition from gamma-ray spectroscopy of the NEAR-Shoemaker spacecraft’s landing site on Eros. Meteorit. Planet. Sci. 36, 1639–1660 (2001)
  13. W.C. Feldman, S. Maurice, D.J. Lawrence, R.C. Little, S.L. Lawson, O. Gasnault, R.C. Wiens, B.L. Barraclough, R.C. Elphic, T.H. Prettyman, J.T. Steinberg, A.B. Binder, Evidence for water ice near the lunar poles. J. Geophys. Res. 106(E10), 23231–23252 (2001)
  14. W.C. Feldman, W.V. Boynton, R.L. Tokar, T.H. Prettyman, O. Gasnault, S.W. Squyres, R.C. Elphic, D.J. Lawrence, S.L. Lawson, S. Maurice, G.W. McKinney, K.R. Moore, R.C. Reedy, Global distribution of neutrons from Mars: results from Mars Odyssey. Science 297, 75–78 (2002)
  15. W.C. Feldman, K. Ahola, B.L. Barraclough, R.D. Belian, R.K. Black, R.C. Elphic, D.T. Everett, K.R. Fuller, J. Kroesche, D.J. Lawrence, S.L. Lawson, J.L. Longmire, S. Maurice, M.C. Miller, T.H. Prettyman, S.A. Storms, G.W. Thornton, Gamma-ray, neutron, and alpha-particle spectrometers for the lunar prospector mission. J. Geophys. Res. 109, E07S06 (2004a). doi:
  16. W.C. Feldman, T.H. Prettyman, S. Maurice, J.J. Plaut, D.L. Bish, D.T. Vaniman, M.T. Mellon, A.E. Metzger, S.W. Squyres, S. Karunatillake, W.V. Boynton, R.C. Elphic, H.O. Funsten, D.J. Lawrence, R.L. Tokar, Global distribution of near-surface hydrogen on Mars. J. Geophys. Res. 109, E09006 (2004b). doi:
  17. J.O. Goldsten, E.A. Rhodes, W.V. Boynton, W.C. Feldman, D.J. Lawrence, J.I. Trombka, D.M. Smith, L.G. Evans, J. White, N.W. Madden, P.C. Berg, G.A. Murphy, R.S. Gurnee, K. Strohbehn, B.D. Williams, E.D. Schaefer, C.A. Monaco, C.P. Cork, J.D. Eckels, W.O. Miller, M.T. Burks, L.B. Hagler, S.J. DeTeresa, M.C. Witte, The MESSENGER gamma-ray and neutron spectrometer. Space Sci. Rev. 131, 339–391 (2007)
  18. J.P. Grotzinger, J. Crisp, A.R. Vasavada, R.C. Anderson, C.J. Baker, R. Barry, D.F. Blake, P. Conrad, K.S. Edgett, B. Ferdowski, R. Gellert, J.B. Gilbert, M. Golombek, J. Gómez-Elvira, D.M. Hassler, L. Jandura, M. Litvak, P. Mahaffy, J. Maki, M. Meyer, M.C. Malin, I. Mitrofanov, J.J. Simmonds, D. Vaniman, R.V. Welch, R.C. Wiens, Mars Science Laboratory Mission and science investigation. Space Sci. Rev. (2012). doi:10.1007/s11214-012-9892-2, this issue.
  19. C. Hardgrove, J. Moersch, D. Drake, Effects of geochemical composition on neutron die-away measurements: implications for Mars science laboratory’s dynamic albedo of neutrons experiment. Nucl. Instrum. Methods Phys. Res. A 659(1), 442–455 (2011)
  20. I. Jun, W. Kim, M. Smith, I. Mitrofanov, M. Litvak, A study of Venus surface elemental composition from 14 MeV neutron induced gamma ray spectroscopy: activation analysis. Nucl. Instrum Methods Phys. Res. A 629(1), 140–144 (2011)
  21. G.F. Knoll, Radiation Detection and Measurements, 3rd edn. (Wiley, New York, 2000), p. 554
  22. V.A. Korolev et al., Hydrogeology, Engineering Geology, Cryopedology and Ecological Geology Methods Applicable to the Field Tests (Moscow State University Press, Moscow, 2000). ISBN 5-211-04114-3
  23. D.J. Lawrence, W.C. Feldman, R.C. Elphic, R.C. Little, T.H. Prettyman, S. Maurice, P.G. Lucey, A.B. Binder, Iron abundances on the lunar surface as measured by the lunar prospector gamma-ray and neutron spectrometers. J. Geophys. Res. 107(E12), 5130 (2002). doi:
  24. M.L. Litvak, I.G. Mitrofanov, A.S. Kozyrev, A.B. Sanin, V.I. Tretyakov, W.V. Boynton, N.J. Kelly, D. Hamara, C. Shinohara, R.S. Saunders, Comparison between polar regions of Mars from HEND/Odyssey data. Icarus 180, 23–37 (2006)
  25. M.L. Litvak, I.G. Mitrofanov, Yu.N. Barmakov, A. Behar, A. Bitulev, Yu. Bobrovnitsky, E.P. Bogolubov, W.V. Boynton, S.I. Bragin, S. Churin, A.S. Grebennikov, A. Konovalov, A.S. Kozyrev, I.G. Kurdumov, A. Krylov, Yu.P. Kuznetsov, A.V. Malakhov, M.I. Mokrousov, V.I. Ryzhkov, A.B. Sanin, V.N. Shvetsov, G.A. Smirnov, S. Sholeninov, G.N. Timoshenko, T.M. Tomilina, D.V. Tuvakin, V.I. Tretyakov, V.S. Troshin, V.N. Uvarov, A. Varenikov, A. Vostrukhin, The dynamic albedo of neutrons (DAN) experiment NASA’s 2009 Mars science laboratory. Astrobiology 8(3), 605–612 (2008)
  26. M.L. Litvak, I.G. Mitrofanov, V.N. Shvecov, G.N. Timoshenko, A.S. Kozyrev, A.V. Malakhov, M.I. Mokrousov, A.B. Sanin, V.I. Tretyakov, A.A. Vostrukhin, DAN/MSL instrument: first field tests, in 41st Lunar and Planetary Science Conference, held March 1–5, 2010 in The Woodlands, Texas (2010), p. 2021. LPI Contribution No. 1533
  27. M.L. Litvak, I.G. Mitrofanov, V.N. Shvecov, G.N. Timoshenko, A.S. Kozyrev, A.V. Malakhov, M.I. Mokrousov, A.B. Sanin, V.I. Tretyakov, A.A. Vostrukhin, A.B. Varenikov, Studies of layering structure of Martian subsurface by active neutron experiment DAN onboard MSL, in 42nd Lunar and Planetary Science Conference, held March 7–11, 2011 at The Woodlands, Texas (2011), p. 1776. LPI Contribution No. 1608
  28. Masarik, Reedy, Gamma ray production and transport in Mars. J. Geophys. Res. 101(E8) (1996). doi:10.2029/96JE01563
  29. A.E. Metzger, J.I. Trombka, L.E. Peterson, R.C. Reedy, J.R. Arnold, Lunar surface radioactivity: preliminary results of the Apollo 15 and Apollo 16 gamma ray spectrometer experiments. Science 179, 800–803 (1973)
  30. I.G. Mitrofanov, D. Anfimov, A. Kozyrev, M. Litvak, A. Sanin, V. Tret’yakov, A. Krylov, V. Shvetsov, W.V. Boynton, C. Shinohara, D. Hamara, R.S. Saunders, Maps of subsurface hydrogen from the high energy neutron detector, Mars Odyssey. Science 297, 78–81 (2002)
  31. I.G. Mitrofanov, M.L. Litvak, A.S. Kozyrev, A.B. Sanin, V.I. Tret’yakov, W.V. Boynton, C. Shinohara, D. Hamara, R.S. Saunders, D. Drake, Search for water in Martian soil using global neutron mapping by the Russian HEND instrument onboard the US 2001 Mars Odyssey spacecraft. Sol. Syst. Res. 37, 366–377 (2003)
  32. I.G. Mitrofanov, M.L. Litvak, A.S. Kozyrev, A.B. Sanin, V.I. Tret’yakov, W.V. Boynton, C. Shinohara, D. Hamara, R.S. Saunders, Estimation of water content in Martian regolith from neutron measurements by HEND onboard 2001 Mars Odyssey. Sol. Syst. Res. 38(4), 253–257 (2004)
  33. I.G. Mitrofanov, A.B. Sanin, D.V. Golovin, M.L. Litvak, A. Konovalov, A.S. Kozyrev, A.V. Malakhov, M.I. Mokrousov, V.I. Tretyakov, V.S. Troshin, V.N. Uvarov, A.B. Varenikov, A.A. Vostrukhin, V.V. Shevchenko, V.N. Shvetsov, A.R. Krylov, G.N. Timoshenko, Y.I. Bobrovnitsky, T.M. Tomilina, A.S. Grebennikov, L.L. Kazakov, R.Z. Sagdeev, G.N. Milikh, A. Bartels, G. Chin, S. Floyd, J. Garvin, J. Keller, T. McClanahan, J. Trombka, W.V. Boynton, K. Harshman, R. Starr, L. Evans, Experiment LEND of the NASA lunar reconnaissance orbiter for high-resolution mapping of neutron emission of the Moon. Astrobiology 8(4), 793–804 (2008)
  34. I.G. Mitrofanov, A. Bartels, Y.I. Bobrovnitsky, W.V. Boynton, G. Chin, H. Enos, L. Evans, S. Floyd, J. Garvin, D.V. Golovin, A.S. Grebennikov, K. Harshman, L.L. Kazakov, J. Keller, A. Konovalov, A.S. Kozyrev, A.R. Krylov, M.L. Litvak, A.V. Malakhov, T. McClanahan, G. Milikh, M.I. Mokrousov, S. Ponomareva, R.Z. Sagdeev, A.B. Sanin, V.V. Shevchenko, V.N. Shvetsov, R. Starr, G.N. Timoshenko, T.M. Tomilina, V.I. Tretyakov, J. Trombka, V.S. Troshin, V.N. Uvarov, A. Varenikov, A.A. Vostrukhin, Lunar exploration neutron detector for the NASA lunar reconnaissance orbiter. Space Sci. Rev. 150(1–4), 183–207 (2010a)
  35. I.G. Mitrofanov, A.B. Sanin, W.V. Boynton, G. Chin, J.B. Garvin, D. Golovin, L.G. Evans, K. Harshman, A.S. Kozyrev, M.L. Litvak, A. Malakhov, E. Mazarico, T. McClanahan, G. Milikh, M. Mokrousov, G. Nandikotkur, G.A. Neumann, I. Nuzhdin, R. Sagdeev, V. Shevchenko, V. Shvetsov, D.E. Smith, R. Starr, V.I. Tretyakov, J. Trombka, D. Usikov, A. Varenikov, A. Vostrukhin, M.T. Zuber, Hydrogen mapping of the lunar south pole using the LRO neutron detector experiment LEND. Science 330(6003), 483 (2010b)
  36. A. Parsons, J. Bodnarik, L. Evans, S. Floyd, L. Lim, T. McClanahan, M. Namkung, S. Nowicki, J. Schweitzer, R. Starr, J. Trombka, Active neutron and gamma-ray instrumentation for in situ planetary science applications. Nucl. Instrum. Methods Phys. Res. A 652(1), 674–679 (2011)
  37. D.B. Pelowitz et al., MNCPX User’s Manual, Version 2.5.0, LANL. Los Alamos (2005). LA-UR-05-0369
  38. T.H. Prettyman, W.C. Feldman, M.T. Mellon, G.W. McKinney, W.V. Boynton, S. Karunatillake, D.J. Lawrence, S. Maurice, A.E. Metzger, J.R. Murphy, S. Squyres, R.D. Starr, R.L. Tokar, Composition and structure of the Martian surface at high southern latitudes from neutron spectroscopy. J. Geophys. Res. 109 (2004). doi:10.1029/2003JE002139
  39. T.H. Prettyman, W.C. Feldman, H.Y. McSween, R.D. Dingler, D.C. Enemark, D.E. Patrick, S.A. Storms, J.S. Hendricks, J.P. Morgenthaler, K.M. Pitman, R.C. Reedy, Dawn’s gamma ray and neutron detector. Space Sci. Rev. 163(1–4), 371–459 (2011)
  40. E.A. Rhodes, L.G. Evans, L.R. Nittler, R.D. Starr, A.L. Sprague, D.J. Lawrence, T.J. McCoy, K.R. Stockstill-Cahill, J.O. Goldsten, P.N. Peplowski, Analysis of MESSENGER gamma-ray spectrometer data from the Mercury flybys. Planet. Space Sci. 59(15), 1829–1841 (2011)
  41. M.A. Riner, P.G. Lucey, F.M. McCubbin, G.J. Taylor, Constraints on Mercury’s surface composition from MESSENGER neutron spectrometer data. Earth Planet. Sci. Lett. 308(1), 107–114 (2011)
  42. Y.A. Surkov, F.F. Kirnozov, I.N. Ivanov, G.M. Kolesov, B.N. Ryvkin, A.P. Shpanov, Neutron-activation analysis of lunar soil brought back from Mare Fecunditatis by Luna-16. Cosm. Res. 11, 860 (1973)
  43. A.P. Vinogradov, Yu.A. Surkov, G.N. Chernov, F.F. Kirnozov, G.B. Nazarkina, Measurement of the gamma radiation of the lunar surface by the Luna-10 spacecraft. Cosm. Res. 4, 751–755 (1966)
  44. H. Wanke, J. Bruckner, G. Dreibus, R. Rieder, I. Ryabchikov, Chemical composition of rocks and soils at the Pathfinder site. Space Sci. Rev. 96, 317–330 (2001)
• 作者单位：1. Space Research Institute, Profsouznaya street 84/32, Moscow, 117997 Russia2. All-Russian Institute of Automatics, Moscow, 101000 P.O. Box 918, Russia3. Jet Propulsion Laboratory, California Institute of Technology, 4800 Oak Grove Drive, Pasadena, CA 91109, USA4. A.A. Blagonravov Institute of Mechanical Engineering, M. Hariton’evskii per., 4, Moscow, 101990 Russia5. Lunar and Planetary Laboratory, University of Arizona, Tucson, USA6. Joint Institute of Nuclear Research, Dubna, Russia
• ISSN：1572-9672

文摘

The description of Dynamic Albedo of Neutrons (DAN) experiment is presented, as a part of the NASA’s Mars Science Laboratory mission onboard the mars rover Curiosity. The instrument DAN includes Pulsing Neutron Generator (PNG) producing pulses of 14.1 MeV neutrons for irradiation of subsurface material below the rover, and Detectors and Electronics (DE) unit, which operates the instrument itself and measures the die-away time profiles of epithermal and thermal neutrons following each neutron pulse. It is shown that the DAN investigation will measure a content of hydrogen along the path of the MSL rover, and it will also provide information about a depth distribution of hydrogen at 10–20 regions selected for the detailed studies and sampling analysis.