ABSTRACT
We report the results of the first six years of measurements of so-called fast neutrons on the International Space Station (ISS) with the Radiation Assessment Detector (ISS-RAD), spanning the period from February 2016 to February 2022. ISS-RAD combines two sensor heads, one nearly identical to the single sensor head in the Mars Science Laboratory RAD (MSL-RAD). The latter is described in a companion article to this one. The novel sensor is the FND, or fast neutron detector, designed to measure neutrons with energies in the range from 200 keV to about 8 MeV. ISS-RAD was deployed in February 2016 in the USLAB module, and then served as a survey instrument from March 2017 until May 2020. Data were acquired in Node3, the Japanese Pressurized Module, Columbus, and Node2. At the conclusion of the survey portion of RAD's planned 10-year campaign on ISS, the instrument was stationed in the USLAB; current plans call for it to remain there indefinitely. The radiation environment on the ISS consists of a complex mix of charged and neutral particles that varies on short time scales owing to the Station's orbit. Neutral particles, and neutrons in particular, are of concern from a radiation protection viewpoint, because they are both highly penetrating (since they do not lose energy via direct ionization) and, at some energies, have high biological effectiveness. Neutrons are copiously produced by GCRs and other incident energetic particles when they undergo nuclear interactions in shielding. As different ISS modules have varying amounts of shielding, they also have varying neutron environments. We report results for neutron fluences and dose equivalent rates in various positions in the ISS.
Subject(s)
Cosmic Radiation , Radiation Monitoring , Space Flight , Spacecraft , Fast Neutrons , Radiation Monitoring/methods , Neutrons , Radiation DosageABSTRACT
We report the first long-term measurements of the radiation quality factor of energetic charged particles on the surface of Mars. The Radiation Assessment Detector (RAD) aboard the Mars Science Laboratory rover, also known as Curiosity, has been operating on Mars since 2012. RAD contains thin silicon detectors that record the ionization energy loss of energetic charged particles. The particles are dominantly galactic cosmic rays (GCRs) and the products of their interactions in the Martian atmosphere, with occasional contributions from solar energetic particles (SEPs). The quality factor on the surface of Mars is influenced by two factors: variations in the shielding provided by the atmosphere, and changes in the spectrum of the incident energetic particle flux due to the 11-year solar cycle. The two cannot be easily disentangled using the data alone, but insights can be gained from calculations and Monte Carlo simulations.
Subject(s)
Mars , Radiation Monitoring/instrumentation , Extraterrestrial Environment , Monte Carlo Method , Radiation Monitoring/methodsABSTRACT
The Mars Science Laboratory spacecraft, containing the Curiosity rover, was launched to Mars on 26 November 2011. Although designed for measuring the radiation on the surface of Mars, the Radiation Assessment Detector (RAD) measured the radiation environment inside the spacecraft during most of the 253-day, 560-million-kilometer cruise to Mars. An important factor for determining the biological impact of the radiation environment inside the spacecraft is the specific contribution of neutrons with their high biological effectiveness. We apply an inversion method (based on a maximum-likelihood estimation) to calculate the neutron and gamma spectra from the RAD neutral particle measurements. The measured neutron spectrum (12-436 MeV) translates into a radiation dose rate of 3.8±1.2 µGy/day and a dose equivalent of 19±5 µSv/day. Extrapolating the measured spectrum (0.1-1000 MeV), we find that the total neutron-induced dose rate is 6±2 µGy/day and the dose equivalent rate is 30±10 µSv/day. For a 360 day round-trip from Earth to Mars with comparable shielding, this translates into a neutron induced dose equivalent of about 11±4 mSv.
Subject(s)
Gamma Rays , Neutrons , Radiation Dosage , Radiation Monitoring/methods , Solar Activity , Cosmic Radiation , Mars , Radiation Protection , SpacecraftABSTRACT
Tularaemia, caused by Francisella tularensis, is an endemic zoonosis frequently occurring in southwest Germany. Since 2005 there is an increase in the number of reported cases of tularaemia in Germany. We report on two cases of ulceroglandular tularaemia and one case of glandular tularaemia that occurred in the summer of 2012 and 2013 in two counties in the Federal State of Baden-Wuerttemberg. Bacteria were transmitted through tick bites, which to date has only rarely been reported in Germany. Inadequate treatment of the patients and an aggravation of clinical symptoms were caused by a delay between disease onset and the detection of the pathogen. Although contact to or consumption of infected hares are the most often reported transmission routes of tularaemia in Germany, tick-bites should also be taken into account. Health professionals should include Francisella tularensis in the differential diagnosis of patients with fever and/or ulcerative lymphadenopathy following a tick bite.
Subject(s)
Tick-Borne Diseases/transmission , Tularemia/epidemiology , Adult , Aged , Animals , Anti-Bacterial Agents/therapeutic use , Female , Francisella tularensis/isolation & purification , Germany/epidemiology , Humans , Levofloxacin/therapeutic use , Male , Tick-Borne Diseases/epidemiology , Time Factors , Tularemia/diagnosis , Tularemia/drug therapy , Tularemia/pathologyABSTRACT
We determined radiogenic and cosmogenic noble gases in a mudstone on the floor of Gale Crater. A K-Ar age of 4.21 ± 0.35 billion years represents a mixture of detrital and authigenic components and confirms the expected antiquity of rocks comprising the crater rim. Cosmic-ray-produced (3)He, (21)Ne, and (36)Ar yield concordant surface exposure ages of 78 ± 30 million years. Surface exposure occurred mainly in the present geomorphic setting rather than during primary erosion and transport. Our observations are consistent with mudstone deposition shortly after the Gale impact or possibly in a later event of rapid erosion and deposition. The mudstone remained buried until recent exposure by wind-driven scarp retreat. Sedimentary rocks exposed by this mechanism may thus offer the best potential for organic biomarker preservation against destruction by cosmic radiation.
Subject(s)
Cosmic Radiation , Evolution, Planetary , Exobiology , Extraterrestrial Environment/chemistry , Mars , Noble Gases/analysis , Biomarkers/analysis , Biomarkers/chemistry , Geologic Sediments , Isotopes/analysis , Isotopes/chemistry , Organic Chemicals/analysis , Organic Chemicals/chemistry , Radiation Dosage , Radiometric Dating , Surface PropertiesABSTRACT
The Mars Science Laboratory spacecraft, containing the Curiosity rover, was launched to Mars on 26 November 2011, and for most of the 253-day, 560-million-kilometer cruise to Mars, the Radiation Assessment Detector made detailed measurements of the energetic particle radiation environment inside the spacecraft. These data provide insights into the radiation hazards that would be associated with a human mission to Mars. We report measurements of the radiation dose, dose equivalent, and linear energy transfer spectra. The dose equivalent for even the shortest round-trip with current propulsion systems and comparable shielding is found to be 0.66 ± 0.12 sievert.
Subject(s)
Cosmic Radiation , Mars , Radiation Dosage , Space Flight , HumansSubject(s)
Bites and Stings/complications , Lyme Disease/diagnosis , Pregnancy Complications, Infectious/diagnosis , Ticks , Adult , Amoxicillin/therapeutic use , Animals , Diagnosis, Differential , Drug Administration Schedule , Female , Guideline Adherence , Humans , Lyme Disease/drug therapy , Pregnancy , Pregnancy Complications, Infectious/drug therapySubject(s)
Crohn Disease/microbiology , Crohn Disease/therapy , Mycobacterium avium subsp. paratuberculosis/pathogenicity , Animals , Anti-Bacterial Agents/therapeutic use , Cattle , Crohn Disease/epidemiology , Dairying , Europe/epidemiology , Humans , Milk/microbiology , Mycobacterium avium subsp. paratuberculosis/isolation & purification , Paratuberculosis/epidemiology , Paratuberculosis/microbiology , Paratuberculosis/transmissionABSTRACT
The synthesis and biological activities of imidazo[5,1-f][1,2,4]triazin-2-amines (imidazotriazines) as novel polo-like kinase 1 inhibitors are reported.
