Preservation of martian organic and environmental records: final report of the Mars biosignature working group

The Mars Science Laboratory (MSL) has an instrument package capable of making measurements of past and present environmental conditions. The data generated may tell us if Mars is, or ever was, able to support life. However, the knowledge of Mars' past history and the geological processes most likely to preserve a record of that history remain sparse and, in some instances, ambiguous. Physical, chemical, and geological processes relevant to biosignature preservation on Earth, especially under conditions early in its history when microbial life predominated, are also imperfectly known. Here, we present the report of a working group chartered by the Co-Chairs of NASA's MSL Project Science Group, John P. Grotzinger and Michael A. Meyer, to review and evaluate potential for biosignature formation and preservation on Mars. Orbital images confirm that layered rocks achieved kilometer-scale thicknesses in some regions of ancient Mars. Clearly, interplays of sedimentation and erosional processes govern present-day exposures, and our understanding of these processes is incomplete. MSL can document and evaluate patterns of stratigraphic development as well as the sources of layered materials and their subsequent diagenesis. It can also document other potential biosignature repositories such as hydrothermal environments. These capabilities offer an unprecedented opportunity to decipher key aspects of the environmental evolution of Mars' early surface and aspects of the diagenetic processes that have operated since that time. Considering the MSL instrument payload package, we identified the following classes of biosignatures as within the MSL detection window: organism morphologies (cells, body fossils, casts), biofabrics (including microbial mats), diagnostic organic molecules, isotopic signatures, evidence of biomineralization and bioalteration, spatial patterns in chemistry, and biogenic gases. Of these, biogenic organic molecules and biogenic atmospheric gases are considered the most definitive and most readily detectable by MSL.     

Mitigation of the impact of terrestrial contamination on organic measurements from the Mars Science Laboratory

The objective of the 2009 Mars Science Laboratory (MSL), which is planned to follow the Mars Exploration Rovers and the Phoenix lander to the surface of Mars, is to explore and assess quantitatively a site on Mars as a potential habitat for present or past life. Specific goals include an assessment of the past or present biological potential of the target environment and a characterization of its geology and geochemistry. Included in the 10 investigations of the MSL rover is the Sample Analysis at Mars (SAM) instrument suite, which is designed to obtain trace organic measurements, measure water and other volatiles, and measure several light isotopes with experiment sequences designed for both atmospheric and solid-phase samples. SAM integrates a gas chromatograph, a mass spectrometer, and a tunable laser spectrometer supported by sample manipulation tools both within and external to the suite. The sub-part-per-billion sensitivity of the suite for trace species, particularly organic molecules, along with a mobile platform that will contain many kilograms of organic materials, presents a considerable challenge due to the potential for terrestrial contamination to mask the signal of martian organics. We describe the effort presently underway to understand and mitigate, wherever possible within the resource constraints of the mission, terrestrial contamination in MSL and SAM measurements.     

MSL火星探测器高超声速流场预测及气动性分析

为获取火星探测器升力-弹道式进入火星大气层的气动特性,以火星科学实验室探测器（MSL）为研究对象,开展基于有效比热比方法的高超声速流动的数值模拟研究,并建立探测器进入过程的气动性能分析方法。计算分析表明,探测器绕流流场因有效比热比较小而具有很薄的激波层,物面气动力与文献值吻合良好;气动分析表明,对特定飞行状态,质心位置决定配平升阻比和俯仰静稳定度,合理的质心法向偏移和纵向移动可满足探测器的升阻特性和静稳定性,同时给定的配平特性和静稳定性要求也可指导质心位置调整,进而为探测器的气动布局设计和舱内设备布置提供建议。     

火星精确着陆制导问题分析与展望

美国火星科学实验室(MSL)任务成功将“好奇”号火星车着陆到火星表面,开创了火星精确着陆探测的新局面。以MSL着陆任务为典型代表,分析了目前火星着陆探测进入、下降和着陆（Entry, Descent and Landing, EDL）过程的制导方案及制导系统的发展趋势。以在火星高海拔、复杂地形区域定点着陆为潜在工程目标,归纳了火星EDL过程面临的制导主要问题。根据未来制导系统自主性和自适应性的技术需求及潜在工程任务制导面临的问题,提出了火星EDL制导方面需要解决的关键技术,并对其在未来工程中的应用潜力进行了展望。     

好奇心号巡视器及其特点分析

"火星科学实验室"(Mars Science Laboratory,MSL)是NASA于2011年11月26日发射的火星探测器,其上的好奇心号(Curiosity)巡视器已经于2012年8月6日着陆火星;其主要科学目标包括研究火星存在生命的可能性、火星气候特征、火星地质过程,并为将来的载人着陆作准备;经过多次论证,其着陆区为盖尔撞击坑(Gale Crater)。与过去的火星巡视器相比,它携带了更加先进的科学仪器,能够精确分析采集样品的化学成分、光谱特征等;在科学工作小组的指导下,其运行模式包括行走、勘查、接近目标、接触目标与样品分析;通过上述工作,"火星科学实验室"将对火星生命及可居住性进行全面探测。     

The Mawrth Vallis region of Mars: A potential landing site for the Mars Science Laboratory (MSL) mission

The primary objective of NASA's Mars Science Laboratory (MSL) mission, which will launch in 2011, is to characterize the habitability of a site on Mars through detailed analyses of the composition and geological context of surface materials. Within the framework of established mission goals, we have evaluated the value of a possible landing site in the Mawrth Vallis region of Mars that is targeted directly on some of the most geologically and astrobiologically enticing materials in the Solar System. The area around Mawrth Vallis contains a vast (>1?×?10? km2) deposit of phyllosilicate-rich, ancient, layered rocks. A thick (>150?m) stratigraphic section that exhibits spectral evidence for nontronite, montmorillonite, amorphous silica, kaolinite, saponite, other smectite clay minerals, ferrous mica, and sulfate minerals indicates a rich geological history that may have included multiple aqueous environments. Because phyllosilicates are strong indicators of ancient aqueous activity, and the preservation potential of biosignatures within sedimentary clay deposits is high, martian phyllosilicate deposits are desirable astrobiological targets. The proposed MSL landing site at Mawrth Vallis is located directly on the largest and most phyllosilicate-rich deposit on Mars and is therefore an excellent place to explore for evidence of life or habitability.     

火星探测器降落伞系统综述

文章介绍了美国火星探测器降落伞系统组成和验证试验情况;分析了5种不同探测器降落伞系统的具体差异;归纳了探测器降落伞系统的结构和性能参数;重点介绍了"凤凰号"和"火星科学实验室"降落伞系统研制过程和性能验证试验。     

A concept for NASA's Mars 2016 astrobiology field laboratory

The Mars Program Plan includes an integrated and coordinated set of future candidate missions and investigations that meet fundamental science objectives of NASA and the Mars Exploration Program (MEP). At the time this paper was written, these possible future missions are planned in a manner consistent with a projected budget profile for the Mars Program in the next decade (2007-2016). As with all future missions, the funding profile depends on a number of factors that include the exact cost of each mission as well as potential changes to the overall NASA budget. In the current version of the Mars Program Plan, the Astrobiology Field Laboratory (AFL) exists as a candidate project to determine whether there were (or are) habitable zones and life, and how the development of these zones may be related to the overall evolution of the planet. The AFL concept is a surface exploration mission equipped with a major in situ laboratory capable of making significant advancements toward the Mars Program's life-related scientific goals and the overarching Vision for Space Exploration. We have developed several concepts for the AFL that fit within known budget and engineering constraints projected for the 2016 and 2018 Mars mission launch opportunities. The AFL mission architecture proposed here assumes maximum heritage from the 2009 Mars Science Laboratory (MSL). Candidate payload elements for this concept were identified from a set of recommendations put forth by the Astrobiology Field Laboratory Science Steering Group (AFL SSG) in 2004, for the express purpose of identifying overall rover mass and power requirements for such a mission. The conceptual payload includes a Precision Sample Handling and Processing System that would replace and augment the functionality and capabilities provided by the Sample Acquisition Sample Processing and Handling system that is currently part of the 2009 MSL platform.     

美国火星表面探测使命述评（下）

从1975年8月发射（1976年7月着陆火星）的海盗-1探测器以来,美国已成功执行了6次火星表面探测使命,即海盗-1与海盗-2轨道器/着陆器,＂火星探路者＂（MPF）着陆器/巡游车,＂勇气＂与＂机遇＂火星探测巡游车（MER）,以及＂凤凰＂着陆器;而推迟到2011年发射的火星科学实验室（MSL）将火星着陆技术与表面巡游车技术推向一个新的高度。从＂海盗＂着陆器到MSL＂好奇心＂巡游车、美国历经三种火星着陆系统与三代火星表面巡游车技术的发展。三种着陆系统为着陆腿着陆系统（＂海盗＂与＂凤凰＂）,气囊着陆系统（MPF与MER）,以及空中吊机着陆系统（MSL）。三代巡游车为MPF＂旅居者＂巡游车、MER＂勇气＂与＂机遇＂巡游车,以及MSL＂好奇心＂巡游车。现在,美国在火星进入、降落与着陆（EDL）运作与表面避障移动方面,已达到技术成熟与先进的水平,满足安全着陆与表面移动探测的要求。文章阐述美国上述七项火星表面探测使命的立项背景、科学目标与有效载荷、飞行系统组成,以及飞行运作程序;分析美国火星着陆技术与表面巡游车技术的发展。     

美国火星表面探测使命述评（上）

从1975年发射（1976年着陆火星）的海盗-1探测器以来,美国已成功执行了6次火星表面探测使命,即海盗-1与海盗-2轨道器/着陆器,＂火星探路者＂（MPF）着陆器/巡游车,＂勇气＂与＂机遇＂火星探测巡游车（MER）,以及＂凤凰＂着陆器;而推迟到2011年发射的＂好奇心＂火星科学实验室（MSL）将火星着陆技术与表面巡游车技术推向一个新的高度。从＂海盗＂着陆器到＂好奇心＂巡游车、美国历经三种火星着陆系统与三代火星表面巡游车技术的发展。三种着陆系统为着陆腿着陆系统（＂海盗＂与＂凤凰＂）,气囊着陆系统（MPF与MER）,以及空中吊机着陆系统（MSL）。三代巡游车为MPF＂旅居者＂巡游车、MER＂勇气＂与＂机遇＂巡游车,以及MSL＂好奇心＂巡游车。现在,美国在火星进入、降落与着陆（EDL）运作与表面避障移动方面,已达到技术成熟与先进的水平,满足安全着陆与表面移动探测的要求。文章阐述美国上述七项火星表面探测使命的立项背景、科学目标与有效载荷、飞行系统组成,以及飞行运作程序;分析美国火星着陆技术与表面巡游车技术的发展。     

RPS strategies to enable NASA''s next decade robotic Mars missions

NASA's proposed roadmap for robotic Mars exploration over the next decade is influenced by science goals, technology needs and budgetary considerations. These requirements could introduce potential changes to the succession of missions, resulting in both technology feed forward and heritage. For long duration robotic surface missions at locations, where solar power generation is not feasible or limited, Radioisotope Power Systems (RPS) could be considered. Thus, RPSs could provide enabling power technologies for some of these missions, covering a power range from 10s of milliwatts to potentially a kilowatt or even higher. Currently, NASA and DoE with their industry partners are developing two RPSs, both generating about 110 W(e) at BOL. These systems will be made available as early as 2009. The Multi-Mission Radioisotope Thermoelectric Generator (MMRTG)—with static power conversion—was down-selected as a potential power source for the MSL mission. Development of small-RPSs is in a planning stage by NASA and DoE; potentially targeting both the 10s of milliwatts and 10s of watts power ranges. If developed, Radioisotope Heat Unit (RHU) based systems—generating 10s to 100s of milliwatts—could power small adjunct elements on larger missions, while the GPHS module-based systems—each generating 10s of watts—could be stacked to provide the required power levels on MER class surface assets. MMRTGs and Stirling Radioisotope Generators (SRGs) could power MSL class or larger missions. Advanced Radioisotope Power Systems (ARPS) with higher specific powers and increased power conversion efficiencies could enhance or even enable missions towards the second half of the next decade. This study examines the available power system options and power selection strategies in line with the proposed mission lineup, and identifies the benefits and utility of the various options for each of the next decade launch opportunities.     

火星进入、下降与着陆技术的新进展——以“火星科学实验室”为例

文章以"火星科学实验室"为例,对火星进入、下降和着陆(EDL)技术的新进展进行了分析和总结。首先,简要介绍了"火星科学实验室"任务需求和遇到的技术挑战;然后,详细说明了相应的对策以及具体技术方案,并针对当前所遇到的问题,列举了一些可能的解决方法;最后,对"火星科学实验室"发展的新技术、新方法进行了总结。     

火星探测器“进入、下降、着陆”过程的供配电方案综述

对国外成功着陆火星的"火星探路者"(MPF)、"火星探测巡视器"(MER)、凤凰号(Phoenix)和"火星科学实验室"(MSL)的供配电技术进行总结;着重分析探测器在"进入、下降、着陆"(EDL)过程中对电源的电池容量、放电电流、工作时间、环境温度及储存时间等方面的要求及解决方案;提出了火星探测器EDL过程中供配电设计在电池类型、器间供电接口、比能量、放电倍率、能量裕度和寿命方面要注意的重点。     

The PRISMA payload optomechanical design, a high performance instrument for a new hyperspectral mission

PRISMA (PRecursore IperSpettrale della Missione Applicativa) hyperspectral instrument is an advanced hyperspectral sensor including a panchromatic camera at medium resolution. The instrument is the focus of the new Earth observation mission that a consortium of Italian companies has started developing under contract of Italian Space Agency. Key features of the instrument are the very high requirement for signal-to-noise and the high quality of data that have to be provided. To meet these demanding figures the optical system has been based on a high transmittance optical system, including a single mirror telescope and two prism spectrometers based on an innovative concept to minimize number of optical elements, while high performance detectors have been chosen for the photon detection. To provide the required data quality for the entire mission lifetime an accurate calibration unit (radiometric and spectral) will be included in the instrument optomechanical assembly. The thermo-mechanical design of the instrument is based on innovative concepts, considering that the use of prism spectrometers implies a tight control of temperature variations to guarantee the stability of all instrument features once in orbit. The presented paper describes the concepts and design principle of the optomechanical assembly of the instrument, at the present status of development.     

航天器仪器安装板附加约束阻尼层设计与振动抑制验证

针对某航天器仪器安装板在噪声载荷作用下振动响应过大的情况,提出采取附加约束阻尼层的振动抑制措施。文章首先介绍约束阻尼层的应用情况,简要说明了约束阻尼层减振的原理;随后以航天器典型仪器安装板为研究对象,通过对比同等噪声载荷下约束阻尼层附加前、后仪器安装板上的振动响应,分析了振动抑制情况。结果显示,仪器安装板附加约束阻尼层后,仪器设备安装处随机振动均方根加速度平均降低1.56 d B(16.4%)。     

Compact high-sensitivity accelerometer-seismometer

Design of a three-axial accelerometer-seismometer, constructed on the basis of two-coordinate sensors (sensitive elements) of high and low accelerations, is considered in the paper. This instrument is applied for gravi-inertial measurements. Basic characteristics of the instrument are described, as well as the technique and results of its standardization.     

Survival of Bacillus subtilis endospores on ultraviolet-irradiated rover wheels and Mars regolith under simulated Martian conditions

Endospores of Bacillus subtilis HA101 were applied to a simulated Mars Exploration Rover (MER) wheel and exposed to Mars-normal UV irradiation for 1, 3, or 6 h. The experiment was designed to simulate a contaminated rover wheel sitting on its landing platform before rolling off onto the martian terrain, as was encountered during the Spirit and Opportunity missions. When exposed to 1 h of Mars UV, a reduction of 81% of viable endospores was observed compared to the non-UV irradiated controls. When exposed for 3 or 6 h, reductions of 94.6% and 96.6%, respectively, were observed compared to controls. In a second experiment, the contaminated rover wheel was rolled over a bed of heat-sterilized Mars analog soil; then the analog soil was exposed to full martian conditions of UV irradiation, low pressure (6.9 mbar), low temperature (-10°C), and an anaerobic CO(2) martian atmosphere for 24 h to determine whether endospores of B. subtilis on the contaminated rover wheel could be transferred to the surface of the analog soil and survive martian conditions. The experiment simulated conditions in which a rover wheel might come into contact with martian regolith immediately after landing, such as is designed for the upcoming Mars Science Laboratory (MSL) rover. The contaminated rover wheel transferred viable endospores of B. subtilis to the Mars analog soil, as demonstrated by 31.7% of samples showing positive growth. However, when contaminated soil samples were exposed to full martian conditions for 24 h, only 16.7% of samples exhibited positive growth-a 50% reduction in the number of soil samples positive for the transferred viable endospores.     

ENVISAT RA-2 advanced radar altimeter: Instrument design and pre-launch performance assessment review

RA-2 is a second generation spaceborne radar altimeter designed and developed by ALENIA AEROSPAZIO (ALS) in the frame of the European Space Agency (ESA) ENVISAT programme. The project, started at beginning of 1990, reached its completion in October 1998 with the delivery of the Instrument Flight Model to Daimler-Benz Aerospace, Dornier (the mission prime contractor of ENVISAT) for its integration on the platform.

RA-2 only partly resembles in its characteristics those of ERS-1 / ERS-2 first generation Radar Altimeters, designed by ALS. Principal innovative features of the RA-2 are: dual frequency operation (Ku and S band) for ionospheric bias correction of the range measurements, enhanced precision range measurements over oceans, capability of including in the instrument telemetry data down linked to ground In-phase and Quadrature samples of individual Ku band radar echoes, resolution adaptivity and robust tracking algorithms to allow range measurements and radar echoes collection not only over open oceans but also at land-ocean boundaries, ice and land regions with the real objective of continuous global Earth topography mapping.

Aim of this paper is to provide an overview of the instrument key design characteristics and to present instrument pre-launch performance results derived from the evaluation of the test results gathered during the instrument integration and characterisation campaign of the Flight Model (FM).     

The BDRG and SHOK instruments for studying gamma-ray burst prompt emission onboard the Lomonosov spacecraft

One of the goals of the Lomonosov satellite designed by scientists of Moscow State University is to study the prompt emission of cosmic gamma-ray bursts. This paper describes the gamma-ray burst monitor in the gamma-ray range (the BDRG instrument) and the wide-field optical cameras (the SHOK instrument) for detecting both the gamma-ray burst prompt emission and its precursors.