Variations of dose rate observed by MSL/RAD in transit to Mars

Aims. To predict the cruise radiation environment related to future human missions to Mars, the correlation between solar modulation potential and the dose rate measured by the Radiation Assessment Detector (RAD) has been analyzed and empirical models have been employed to quantify this correlation....

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Published in	Astronomy and astrophysics (Berlin) Vol. 577; p. A58
Main Authors	Guo, Jingnan, Zeitlin, Cary, Wimmer-Schweingruber, Robert F., Hassler, Donald M., Posner, Arik, Heber, Bernd, Köhler, Jan, Rafkin, Scot, Ehresmann, Bent, Appel, Jan K., Böhm, Eckart, Böttcher, Stephan, Burmeister, Sönke, Brinza, David E., Lohf, Henning, Martin, Cesar, Reitz, Günther
Format	Journal Article
Language	English
Published	EDP Sciences 01.05.2015
Subjects	Correlation analysis Curiosity (Mars rover) Dosage Equivalence instrumentation: detectors Manned Mars missions Mars surface Modulation Solar maximum solar-terrestrial relations space vehicles: instruments
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ISSN	0004-6361 1432-0746
DOI	10.1051/0004-6361/201525680

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Abstract	Aims. To predict the cruise radiation environment related to future human missions to Mars, the correlation between solar modulation potential and the dose rate measured by the Radiation Assessment Detector (RAD) has been analyzed and empirical models have been employed to quantify this correlation. Methods. The instrument RAD, onboard Mars Science Laboratory’s (MSL) rover Curiosity, measures a broad spectrum of energetic particles along with the radiation dose rate during the 253-day cruise phase as well as on the surface of Mars. With these first ever measurements inside a spacecraft from Earth to Mars, RAD observed the impulsive enhancement of dose rate during solar particle events as well as a gradual evolution of the galactic cosmic ray (GCR) induced radiation dose rate due to the modulation of the primary GCR flux by the solar magnetic field, which correlates with long-term solar activities and heliospheric rotation. Results. We analyzed the dependence of the dose rate measured by RAD on solar modulation potentials and estimated the dose rate and dose equivalent under different solar modulation conditions. These estimations help us to have approximate predictions of the cruise radiation environment, such as the accumulated dose equivalent associated with future human missions to Mars. Conclusions. The predicted dose equivalent rate during solar maximum conditions could be as low as one-fourth of the current RAD cruise measurement. However, future measurements during solar maximum and minimum periods are essential to validate our estimations.
AbstractList	Aims. To predict the cruise radiation environment related to future human missions to Mars, the correlation between solar modulation potential and the dose rate measured by the Radiation Assessment Detector (RAD) has been analyzed and empirical models have been employed to quantify this correlation. Methods. The instrument RAD, onboard Mars Science Laboratory's (MSL) rover Curiosity, measures a broad spectrum of energetic particles along with the radiation dose rate during the 253-day cruise phase as well as on the surface of Mars. With these first ever measurements inside a spacecraft from Earth to Mars, RAD observed the impulsive enhancement of dose rate during solar particle events as well as a gradual evolution of the galactic cosmic ray (GCR) induced radiation dose rate due to the modulation of the primary GCR flux by the solar magnetic field, which correlates with long-term solar activities and heliospheric rotation. Results. We analyzed the dependence of the dose rate measured by RAD on solar modulation potentials and estimated the dose rate and dose equivalent under different solar modulation conditions. These estimations help us to have approximate predictions of the cruise radiation environment, such as the accumulated dose equivalent associated with future human missions to Mars. Conclusions. The predicted dose equivalent rate during solar maximum conditions could be as low as one-fourth of the current RAD cruise measurement. However, future measurements during solar maximum and minimum periods are essential to validate our estimations.
Author	Böttcher, Stephan Martin, Cesar Appel, Jan K. Posner, Arik Böhm, Eckart Heber, Bernd Ehresmann, Bent Lohf, Henning Reitz, Günther Guo, Jingnan Hassler, Donald M. Zeitlin, Cary Burmeister, Sönke Brinza, David E. Rafkin, Scot Wimmer-Schweingruber, Robert F. Köhler, Jan
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SubjectTerms	Correlation analysis Curiosity (Mars rover) Dosage Equivalence instrumentation: detectors Manned Mars missions Mars surface Modulation Solar maximum solar-terrestrial relations space vehicles: instruments
Title	Variations of dose rate observed by MSL/RAD in transit to Mars
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