Your search keyword '"Böhm, Eckart"' showing total 20 results

1. Measurements of the neutral particle spectra on Mars by MSL/RAD from 2015-11-15 to 2016-01-15

Author

Guo, Jingnan, Zeitlin, Cary, Wimmer-Schweingruber, Robert, Hassler, Donald M., Koehler, Jan, Ehresmann, Bent, Boettcher, Stephan, Boehm, Eckart, and Brinza, David E.

Subjects

Physics - Instrumentation and Detectors, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Radiation Assessment Detector (RAD), onboard the Mars Science Laboratory (MSL) rover Curiosity, has been measuring the energetic charged and neutral particles and the radiation dose rate on the surface of Mars since the landing of the rover in August 2012. In contrast to charged particles, neutral particles (neutrons and gamma-rays) are measured indirectly: the energy deposition spectra produced by neutral particles are complex convolutions of the incident particle spectra with the detector response functions. An inversion technique has been developed and applied to jointly unfold the deposited energy spectra measured in two scintillators of different types (CsI for high gamma detection efficiency, and plastic for neutrons) to obtain the neutron and gamma-ray spectra. This result is important for determining the biological impact of the Martian surface radiation contributed by neutrons, which interact with materials differently from the charged particles. These first in-situ measurements on Mars provide (1) an important reference for assessing the radiation-associated health risks for future manned missions to the red planet and (2) an experimental input for validating the particle transport codes used to model the radiation environments within spacecraft or on the surface of planets. Here we present neutral particle spectra as well as the corresponding dose and dose equivalent rates derived from RAD measurement during a period (November 15, 2015 to January 15, 2016) for which the surface particle spectra have been simulated via different transport models.

Published

2020

2. Dependence of the Martian radiation environment on atmospheric depth: Modeling and measurement

Author

Guo, Jingnan, Slaba, Tony C., Zeitlin, Cary, Wimmer-Schweingruber, Robert F., Badavi, Francis F., Böhm, Eckart, Böttcher, Stephan, Brinza, David E., Ehresmann, Bent, Hassler, Donald M., Matthiä, Daniel, and Rafkin, Scot

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The energetic particle environment on the Martian surface is influenced by solar and heliospheric modulation and changes in the local atmospheric pressure (or column depth). The Radiation Assessment Detector (RAD) on board the Mars Science Laboratory rover Curiosity on the surface of Mars has been measuring this effect for over four Earth years (about two Martian years). The anticorrelation between the recorded surface Galactic Cosmic Ray-induced dose rates and pressure changes has been investigated by Rafkin et al. (2014) and the long-term solar modulation has also been empirically analyzed and modeled by Guo et al. (2015). This paper employs the newly updated HZETRN2015 code to model the Martian atmospheric shielding effect on the accumulated dose rates and the change of this effect under different solar modulation and atmospheric conditions. The modeled results are compared with the most up-to-date (from 14 August 2012 to 29 June 2016) observations of the RAD instrument on the surface of Mars. Both model and measurements agree reasonably well and show the atmospheric shielding effect under weak solar modulation conditions and the decline of this effect as solar modulation becomes stronger. This result is important for better risk estimations of future human explorations to Mars under different heliospheric and Martian atmospheric conditions.

Published

2017

3. Modeling the variations of Dose Rate measured by RAD during the first MSL Martian year: 2012-2014

Author

Guo, Jingnan, Zeitlin, Cary, Wimmer-Schweingruber, Robert F., Rafkin, Scot, Hassler, Donald M., Posner, Arik, Heber, Bernd, Koehler, Jan, Ehresmann, Bent, Appel, Jan K., Boehm, Eckart, Boettcher, Stephan, Burmeister, Soenke, Brinza, David E., Lohf, Henning, Martin, Cesar, Kahanpaeae, H., and Reitz, Guenther

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics, High Energy Physics - Experiment, Physics - Space Physics

Abstract

The Radiation Assessment Detector (RAD), on board Mars Science Laboratory's (MSL) rover Curiosity, measures the {energy spectra} of both energetic charged and neutral particles along with the radiation dose rate at the surface of Mars. With these first-ever measurements on the Martian surface, RAD observed several effects influencing the galactic cosmic ray (GCR) induced surface radiation dose concurrently: [a] short-term diurnal variations of the Martian atmospheric pressure caused by daily thermal tides, [b] long-term seasonal pressure changes in the Martian atmosphere, and [c] the modulation of the primary GCR flux by the heliospheric magnetic field, which correlates with long-term solar activity and the rotation of the Sun. The RAD surface dose measurements, along with the surface pressure data and the solar modulation factor, are analysed and fitted to empirical models which quantitatively demonstrate} how the long-term influences ([b] and [c]) are related to the measured dose rates. {Correspondingly we can estimate dose rate and dose equivalents under different solar modulations and different atmospheric conditions, thus allowing empirical predictions of the Martian surface radiation environment.

Published

2015

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

Author

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, and Reitz, Günther

Subjects

Physics - Space Physics, Astrophysics - Solar and Stellar Astrophysics

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., Comment: 6 pages, 4 figures

Published

2015

5. The charged particle radiation environment on Mars measured by MSL/RAD from November 15, 2015 to January 15, 2016

Author

Ehresmann, Bent, Zeitlin, Cary J., Hassler, Donald M., Matthiä, Daniel, Guo, Jingnan, Wimmer-Schweingruber, Robert F., Appel, Jan K., Brinza, David E., Rafkin, Scot C.R., Böttcher, Stephan I., Burmeister, Sönke, Lohf, Henning, Martin, Cesar, Böhm, Eckart, and Reitz, Günther

Published

2017

6. Measurements of the neutral particle spectra on Mars by MSL/RAD from 2015-11-15 to 2016-01-15

Author

Guo, Jingnan, Zeitlin, Cary, Wimmer-Schweingruber, Robert, Hassler, Donald M., Köhler, Jan, Ehresmann, Bent, Böttcher, Stephan, Böhm, Eckart, and Brinza, David E.

Published

2017

7. Charged particle spectra measured during the transit to Mars with the Mars Science Laboratory Radiation Assessment Detector (MSL/RAD)

Author

Ehresmann, Bent, Hassler, Donald M., Zeitlin, Cary, Guo, Jingnan, Köhler, Jan, Wimmer-Schweingruber, Robert F., Appel, Jan K., Brinza, David E., Rafkin, Scot C.R., Böttcher, Stephan I., Burmeister, Sönke, Lohf, Henning, Martin, Cesar, Böhm, Eckart, Matthiä, Daniel, and Reitz, Günther

Published

2016

8. Mars' Surface Radiation Environment Measured with the Mars Science Laboratory's Curiosity Rover

Author

MSL Science Team, Hassler, Donald M., Zeitlin, Cary, Wimmer-Schweingruber, Robert F., Ehresmann, Bent, Rafkin, Scot, Eigenbrode, Jennifer L., Brinza, David E., Weigle, Gerald, Böttcher, Stephan, Böhm, Eckart, Burmeister, Soenke, Guo, Jingnan, Köhler, Jan, Martin, Cesar, Reitz, Guenther, Cucinotta, Francis A., Kim, Myung-Hee, Grinspoon, David, Bullock, Mark A., Posner, Arik, Gómez-Elvira, Javier, Vasavada, Ashwin, and Grotzinger, John P.

Published

2014

9. Marsʼ Surface Radiation Environment Measured with the Mars Science Laboratoryʼs Curiosity Rover

Author

Hassler, Donald M., Zeitlin, Cary, Wimmer-Schweingruber, Robert F., Ehresmann, Bent, Rafkin, Scot, Eigenbrode, Jennifer L., Brinza, David E., Weigle, Gerald, Böttcher, Stephan, Böhm, Eckart, Burmeister, Soenke, Guo, Jingnan, Köhler, Jan, Martin, Cesar, Reitz, Guenther, Cucinotta, Francis A., Kim, Myung-Hee, Grinspoon, David, Bullock, Mark A., Posner, Arik, Gómez-Elvira, Javier, Vasavada, Ashwin, and Grotzinger, John P.

Published

2014

10. Dependence of the Martian radiation environment on atmospheric depth: Modeling and measurement

Author

Guo, Jingnan, primary, Slaba, Tony C., additional, Zeitlin, Cary, additional, Wimmer-Schweingruber, Robert F., additional, Badavi, Francis F., additional, Böhm, Eckart, additional, Böttcher, Stephan, additional, Brinza, David E., additional, Ehresmann, Bent, additional, Hassler, Donald M., additional, Matthiä, Daniel, additional, and Rafkin, Scot, additional

Published

2017

11. Diurnal variations of energetic particle radiation at the surface of Mars as observed by the Mars Science Laboratory Radiation Assessment Detector

Author

Rafkin, Scot C. R., Zeitlin, Cary, Ehresmann, Bent, Hassler, Donald M., Guo, Jingnan, Köhler, Jan, Wimmer-Schweingruber, Robert F., Gómez-Elvira, Javier, Harri, Ari-Matti, Kahanpää, Henrik, Brinza, David E., Weigle, Gerald, Böttcher, Stephan, Böhm, Eckart, Burmeister, Söenke, Martín, César, Reitz, Güenther, Cucinotta, Francis A., Kim, Myung-Hee, Grinspoon, David, Bullock, Mark A., Posner, Arik, MSL Science Team, and Martínez-Frías, J.

Subjects

Physics, Radiation, Meteorology, Space weather, Atmosphere, Mars, Mars Science Laboratory, Mars Exploration Program, Atmospheric sciences, Radiation assessment detector, Physics::Geophysics, Computer Science::Robotics, Geophysics, Space and Planetary Science, Geochemistry and Petrology, Diurnal cycle, Thermal, Physics::Space Physics, Earth and Planetary Sciences (miscellaneous), Astrophysics::Earth and Planetary Astrophysics, Particle radiation, Neutral particle

Abstract

The Radiation Assessment Detector onboard the Mars Science Laboratory rover Curiosity is detecting the energetic particle radiation at the surface of Mars. Data collected over the first 350 Martian days of the nominal surface mission show a pronounced diurnal cycle in both the total dose rate and the neutral particle count rate. The diurnal variations detected by the Radiation Assessment Detector were neither anticipated nor previously considered in the literature. These cyclic variations in dose rate and count rate are shown to be the result of changes in atmospheric column mass driven by the atmospheric thermal tide that is characterized through pressure measurements obtained by the Rover Environmental Monitoring Station, also onboard the rover. In addition to bulk changes in the radiation environment, changes in atmospheric shielding forced by the thermal tide are shown to disproportionately affect heavy ions compared to H and He nuclei.

Published

2014

12. Comparison of Martian surface ionizing radiation measurements from MSL-RAD with Badhwar-O'Neill 2011/HZETRN model calculations

Author

Kim, Myung-Hee, Cucinotta, Francis A., Nounu, Hatem N., Zeitlin, Cary, Hassler, Donald M., Rafkin, Scot C. R., Wimmer-Schweingruber, Robert F., Ehresmann, Bent, Brinza, David E., Böttcher, Stephan, Böhm, Eckart, Burmeister, Söenke, Guo, Jingnan, Köhler, Jan, Martín, César, Reitz, Güenther, Posner, Arik, Gómez-Elvira, Javier, Harri, Ari-Matti, MSL Science Team, and Martínez-Frías, J.

Subjects

Physics, Martian, Equivalent dose, Radiation transport, Cosmic ray, Mars Exploration Program, Atmosphere of Mars, Atmospheric sciences, Computational physics, Geophysics, Space and Planetary Science, Geochemistry and Petrology, Martian surface, Earth and Planetary Sciences (miscellaneous), Dose rate on Martian surface, Dosimetry, Neutron, Galactic cosmic radiation

Abstract

Dose rate measurements from Mars Science Laboratory-radiation assessment detector (MSL-RAD) for 300 sols on Mars are compared to simulation results using the Badhwar-O'Neill 2011 galactic cosmic ray (GCR) environment model and the high-charge and energy transport (HZETRN) code. For the nuclear interactions of primary GCR through Mars atmosphere and Curiosity rover, the quantum multiple scattering theory of nuclear fragmentation is used. Daily atmospheric pressure is measured at Gale Crater by the MSL Rover Environmental Monitoring Station. Particles impinging on top of the Martian atmosphere reach RAD after traversing varying depths of atmosphere that depend on the slant angles, and the model accounts for shielding of the RAD “E” detector (used for dosimetry) by the rest of the instrument. Simulation of average dose rate is in good agreement with RAD measurements for the first 200 sols and reproduces the observed variation of surface dose rate with changing heliospheric conditions and atmospheric pressure. Model results agree less well between sols 200 and 300 due to subtleties in the changing heliospheric conditions. It also suggests that the average contributions of albedo particles (charge number Z

Published

2014

13. On determining the zenith angle dependence of the Martian radiation environment at Gale Crater altitudes

Author

Wimmer‐Schweingruber, Robert F., primary, Köhler, Jan, additional, Hassler, Donald M., additional, Guo, Jingnan, additional, Appel, Jan‐Kristoffer, additional, Zeitlin, Cary, additional, Böhm, Eckart, additional, Ehresmann, Bent, additional, Lohf, Henning, additional, Böttcher, Stephan I., additional, Burmeister, Sönke, additional, Martin, Cesar, additional, Kharytonov, Alexander, additional, Brinza, David E., additional, Posner, Arik, additional, Reitz, Günther, additional, Matthiä, Daniel, additional, Rafkin, Scott, additional, Weigle, Gerald, additional, and Cucinotta, Francis, additional

Published

2015

14. MODELING THE VARIATIONS OF DOSE RATE MEASURED BY RAD DURING THE FIRSTMSLMARTIAN YEAR: 2012–2014

Author

Guo, Jingnan, primary, Zeitlin, Cary, additional, Wimmer-Schweingruber, Robert F., additional, Rafkin, Scot, additional, Hassler, Donald M., additional, Posner, Arik, additional, Heber, Bernd, additional, Köhler, Jan, additional, Ehresmann, Bent, additional, Appel, Jan K., additional, Böhm, Eckart, additional, Böttcher, Stephan, additional, Burmeister, Sönke, additional, Brinza, David E., additional, Lohf, Henning, additional, Martin, Cesar, additional, Kahanpää, H., additional, and Reitz, Günther, additional

Published

2015

15. MSL-RAD radiation environment measurements

Author

Guo, Jingnan, primary, Zeitlin, Cary, additional, Wimmer-Schweingruber, Robert F., additional, Hassler, Donald M., additional, Ehresmann, Bent, additional, Köhler, Jan, additional, Böhm, Eckart, additional, Böttcher, Stephan, additional, Brinza, David, additional, Burmeister, Sönke, additional, Cucinotta, Francis, additional, Martin, Cesar, additional, Posner, Arik, additional, Rafkin, Scot, additional, and Reitz, Guenther, additional

Published

2015

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

Author

Guo, Jingnan, primary, Zeitlin, Cary, additional, Wimmer-Schweingruber, Robert F., additional, Hassler, Donald M., additional, Posner, Arik, additional, Heber, Bernd, additional, Köhler, Jan, additional, Rafkin, Scot, additional, Ehresmann, Bent, additional, Appel, Jan K., additional, Böhm, Eckart, additional, Böttcher, Stephan, additional, Burmeister, Sönke, additional, Brinza, David E., additional, Lohf, Henning, additional, Martin, Cesar, additional, and Reitz, Günther, additional

Published

2015

17. Charged particle spectra obtained with the Mars Science Laboratory Radiation Assessment Detector (MSL/RAD) on the surface of Mars

Author

Ehresmann, Bent, primary, Zeitlin, Cary, additional, Hassler, Donald M., additional, Wimmer-Schweingruber, Robert F., additional, Böhm, Eckart, additional, Böttcher, Stephan, additional, Brinza, David E., additional, Burmeister, Sönke, additional, Guo, Jingnan, additional, Köhler, Jan, additional, Martin, Cesar, additional, Posner, Arik, additional, Rafkin, Scot, additional, and Reitz, Günther, additional

Published

2014

18. MSL-RAD RADIATION ENVIRONMENT MEASUREMENTS.

Author

Jingnan Guo, Zeitlin, Cary, Wimmer-Schweingruber, Robert F., Hassler, Donald M., Ehresmann, Bent, Köhler, Jan, Böhm, Eckart, Böttcher, Stephan, Brinza, David, Burmeister, Sönke, Cucinotta, Francis, Martin, Cesar, Posner, Arik, Rafkin, Scot, and Reitz, Guenther

Subjects

RADIATION measurements, SOLAR energetic particles, GALACTIC cosmic rays, RADIATION doses, RADIATION dosimetry

Abstract

In this study, results are presented from the on-board radiation assessment detector (RAD) of Mars Science Laboratory (MSL). RAD is designed to measure the energetic particle radiation environment, which consists of galactic cosmic rays (GCRs) and solar energetic particles (SEPs) as well as secondary particles created by nuclear interactions of primary particles in the shielding (during cruise) or Martian soil and atmosphere (surface measurements). During the cruise, RAD collected data on space radiation from inside the craft, thus allowing for a reasonable estimation of what a human crew travelling to/from Mars might be exposed to. On the surface of Mars, RAD is shielded by the atmosphere (from above) and the planet itself (from below). RAD measures the first detailed radiation data from the surface of another planet, and they are highly relevant for planning future crewed missions. The results for radiation dose and dose equivalent (a quantity most directly related to human health risk) are presented during the cruise phase, as well as on the Martian surface. Dose and dose equivalent are dominated by the continuous GCR radiation, but several SEP events were also detected and are discussed here. [ABSTRACT FROM AUTHOR]

Published

2015

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

Author

Jingnan Guo, 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, and Reitz, Günther

Subjects

MARS (Planet), GALACTIC cosmic rays, DETECTORS, SOLAR-terrestrial physics, ASTRONOMICAL instruments

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 [ABSTRACT FROM AUTHOR]

Published

2015

20. Comparison of Martian surface ionizing radiation measurements from MSL-RAD with Badhwar-O'Neill 2011/HZETRN model calculations.

Author

Kim, Myung-Hee Y., Cucinotta, Francis A., Nounu, Hatem N., Zeitlin, Cary, Hassler, Donald M., Rafkin, Scot C. R., Wimmer-Schweingruber, Robert F., Ehresmann, Bent, Brinza, David E., Böttcher, Stephan, Böhm, Eckart, Burmeister, Soenke, Guo, Jingnan, Köhler, Jan, Martin, Cesar, Reitz, Guenther, Posner, Arik, Gómez-Elvira, Javier, and Harri, Ari-Matti

Published

2014