The Testimony of Dr. Michael J.S. Belton, Ph.D. Chair, Solar System Exploration Survey Committee, National Research Council
US Senate Committee on Commerce, Science, & Transportation
Given at a Science, Technology, and Space Hearing: Space Exploration
Wednesday, July 30 2003 - 2:30 PM - SR-253
Good afternoon, Mr. Chairman and members of the Committee. My name is Michael Belton, and I served as Chairman of the Solar System Exploration (Decadal) Survey for the Space Studies Board of the National Research Council. The NRC is the operating arm of the National Academy of Sciences, chartered by Congress in 1863 to advise the government on matters of science and technology. I am also an Emeritus Astronomer at the National Optical Astronomy Observatory and President of Belton Space Exploration Initiatives, LLC, in Tucson, Arizona. I have been involved in space exploration for most of my professional life and have been an investigator on several NASA flight missions including Mariner Venus-Mercury, Voyager, Galileo, Contour and Deep Impact.
The Office of Space Science of the National Aeronautics and Space Administration sponsored the SSE Survey to chart a bold strategy for general solar system and Mars exploration over the next decade. The Survey, which reported in July 2002, derived its recommendations and priorities by looking even farther into the future and is based on direct and well-considered inputs from the scientific community and interested public organizations. It has, achieved a broad consensus of opinion in these communities. Its recommendations are for a strong, competitive, flight program based on a few key scientific questions, a sound research infrastructure including public outreach, and a forward looking technology program that I expect will obtain the most innovative and cost effective mission solutions. A critical element of the charge to the Survey was to formulate a "big pictureî of solar exploration - what it is, how it fits into other scientific endeavors, and why it is a compelling goal today.
We were also tasked to develop an inventory of top-level scientific questions and provide a prioritized list of the most promising avenues for flight investigations and supporting ground-based activities for the period 2003-2013. In performing the Survey we took care to trace the relationships between basic motivational questions of interest to the public at large and the scientific objectives, integrating themes, key scientific questions, and prioritized mission list that form the core of our recommendations. Solar system exploration remains a compelling activity because it places within our grasp answers to basic questions of profound human interest - Are we alone? Where did we come from? What is our destiny? Mars and icy satellite explorations may soon provide an answer to the first question; exploration of comets, primitive asteroids and Kuiper Belt objects may have much to say about the second; surveys of near-Earth objects will say something about the third.
Although the scientific goals of NASA's Solar System Exploration program have been quite stable, in recent years the emphasis has increased in two areas - the search for the existence of life, either past or extant, beyond Earth, and the development of detailed knowledge of the near-Earth environment in order to understand what potential hazards to the Earth may exist. The field of astrobiology has become an important element in solar system exploration and there is an increasing interest in learning more about objects that could collide with the Earth at some future time.
The Survey developed four integrating themes to guide solar system exploration in the coming decade:
With these four themes agreed to, the Survey was able to prioritize among the literally hundreds of scientific questions of interest to the community. The resulting set of twelve key questions with high scientific merit should guide the selection of flight missions over the next decade. We measure the scientific merit of a question by asking whether its answer has the possibility of creating or changing a paradigm, whether the new knowledge might have a pivotal effect on the direction of future research, and to what degree the knowledge that might be gained would substantially strengthen the factual basis of our understanding.
The twelve key questions, grouped within the four themes, are: The First Billion Years of Solar System History.
It is important at this juncture to understand that the foundation on which the Survey's priorities rest must also be maintained and secured. The top-level programmatic priorities that are required to provide the foundation for productivity and continued excellence in solar system exploration are:
Maintaining a mix of mission size is also important. For example, many aspects of the key science questions can be met through Discovery class missions (<$325 M), while other high-priority science issues will require larger, more expensive projects. Particularly critical in our strategy is the New Frontiers line of missions ($325-650 M), which are Principal-Investigator (PI) led , medium class, competed missions. This line was proposed in the President's FY 2003 budget submission before the Survey was completed. The Survey strongly supported the proposal to establish a New Frontiers line of competitively procured flight missions with a total mission cost of approximately twice the Discovery cap.
Experience has also shown that large missions that enable extended and scientifically multi-faceted experimentation are an essential element of the mission mix. The Survey recommended that the development and implementation of Flagship (>$650M) missions, comparable to Viking, Voyager, Galileo, and Cassini-Huygens, be at a rate of about one per decade to provide for the comprehensive exploration of science targets of extraordinarily high priority.
Within this structure the Survey recommended the following prioritized flight program of missions in general solar system exploration in the period 2003-2013. It must be emphasized that, at NASA's request, the prioritization was done within cost classes and not over the entire list. Also by NASA's request, the priorities for the Mars Exploration Program were kept separate from the priorities for the Solar System Exploration Division.
Large Class (at a frequency of approximately 1 every decade)
For the Mars exploration program the Survey recommended that in the coming decade the flight program should focus on missions that get down onto the surface of the planet with the ultimate goal of implementing Mars Sample Return missions in the period immediately following the current decade. It is believed that such samples are necessary to settle the question of the presence of life.
The Survey recommended the following flight mission priorities for Mars exploration in the period 2006 - 2013:
In addition the Survey committee counseled that NASA should seek to engage international partners at an early stage in the planning and implementation of Mars Sample Return; that the Mars Smart Lander (MSL) while addressing high priority science goals, should take advantage of the opportunity to validate technologies required for sample return, and that the Scout program should be structured like the Discovery program, with PI leadership and competitive missions. The Survey advocated that a Scout mission should be flown at every other Mars launch opportunity.
This future program for solar system exploration laid out above clearly requires a mix of Medium and Large class missions to adequately challenge current scientific paradigms. It also requires that small missions whether Discovery class, Mars Scout, or mission extensions, provide focused ways of responding quickly to discoveries made or provide vehicles for entrepreneurial creativity and new scientific ideas. Our proposed Kuiper Belt-Pluto mission may well be the last great reconnaissance mission within solar system exploration and, with it completed, we can expect that the program will rapidly enter a phase of large and medium class missions operating on the surfaces of planets or within their atmospheres and plasma environments.
These missions will utilize technologies, yet to be practically developed, that will enable long sojourns, power advanced instrumentation, and return samples to the Earth. The inclusion of Project Prometheus and the optical communications initiative in the President's FY 2004 budget submission are two excellent examples of the type of technology development that is needed to move solar system exploration forward.
The Survey recognized that a significant investment in advanced technology development is needed in order for both the recommended flight missions to succeed and to provide a basis for increased science return from future missions. The following list of future possible missions (unprioritized) with high science value was noted by the Survey and gives some idea of the technical challenges that lie ahead:
The Survey identified the following areas in which we believe that technology development is appropriate:
These technology areas were not prioritized by the Survey. Nevertheless, I note that in-flight power and nuclear electric propulsion initiatives were included in the 2003 budget request and appear again in the 2004 request as Project Prometheus. Also, there are other elements of the above list that are, I believe, being actively considered for inclusion in a future mission in NASA's New Millennium program.
The road that leads to the future of any endeavor is usually well defined only at its start. And quickly, the future becomes obscured by latent uncertainties: the possibility of new discoveries, of changing paradigms, changes in national policy, blind alleys, and funding pleasures and disappointments. Solar system exploration is no exception and in the time since the Survey was completed and published I have felt great excitement and considerable pleasure as important elements of our strategic plan have been proposed to Congress and move, hopefully, towards reality.
The New Horizons mission, which I believe can fulfill our goals at the Kuiper belt and Pluto, is seeing strong support; the proposed Jupiter Icy Moons Mission will more than fulfill our goal of a flagship mission to further explore the subsurface oceans on Europa while simultaneously applying the new technologies that the Survey advocates as a basis for much of the future program. The most important of these new technologies - in-flight power and nuclear electric propulsion - are adequately covered in the proposed Project Prometheus.
The New Frontiers program is going ahead and we await details of how NASA intends to implement this program to include the flight priorities that we have advocated. Finally, the research infrastructure, which underlies the flight program, also appears to be drawing adequate support. The tragic Columbia accident will no doubt have effects on this program in ways that I cannot anticipate. Whether these effects will be positive or negative remains to be seen.
However, I note the old proverb "much good can often come out of adversity.î Since the end of the Apollo Program, the human spaceflight program has served to enable a number of robotic missions (the Shuttle has been needed to launch important spacecraft such as the Ulysses, Magellan, and Galileo probes, and the Hubble Space Telescope), but has not played a direct role in the exploration of other solar system bodies. In the distant future I expect that this may change in some elements of the program. Human exploration of Mars is a long spoken of goal but faces major technical challenges.
A second area is the protection of the Earth from a potentially hazardous near-Earth object on a collision course. The role of humans, if any, in such an endeavor has not yet been satisfactorily worked out and, in my opinion, deserves attention. In conclusion, the future of solar system exploration appears to be very bright.
NASA is taking the technological and programmatic steps necessary to support future missions that will explore our solar system in astounding detail. Supported by the strategy laid out in the Survey, future solar system exploration will enable us to answer three fundamental human questions: Are we alone? Where did we come from? What is our destiny?