U.S. Should Bid to Host Next Particle Accelerator, Report Says

Specifically, the United States should participate in major international particle physics projects and announce its desire to be the host country for the next state-of-the-art particle accelerator, said the committee that wrote the report. Although America has a distinguished history of leadership in particle physics, other nations have increased their investments, threatening the continued distinction of the U.S. program.

"For more than half a century, the United States has been a leader in particle physics, but its flagship facilities are now being surpassed by new ones in other countries," said committee chair Harold T. Shapiro, president emeritus and professor of economics and public affairs, Princeton University, Princeton, N.J. "Today the U.S. program is at a crossroads. At just the moment when the scientific opportunities are the most exciting, we have no compelling strategic vision for the next stage of our efforts. Our leadership in particle physics either can be sacrificed, or it can be maintained by making a strong commitment to some key new experimental facilities here and thoughtful participation in current and future global efforts."

The nation's contribution to particle physics for the past 50 years has led to very detailed knowledge of the basic constituents of matter and how they interact with each other, as well as to a deeper understanding of the universe and the discovery of new particles. These discoveries also have generated new questions -- about the origin of mass, the relationships between forces observed in nature, and the composition of the universe -- that physicists are now in the position to answer.

While new discoveries will be made using a variety of experimental methods, the committee believes that the key to continued U.S. leadership will be the aggressive pursuit of several key experiments that require accelerators. These huge facilities create very fast and energetic collisions between subatomic particles to either reveal their inner structure or create new particles from the energy released in the collisions. The world's most powerful accelerator, located at the Fermi National Accelerator Laboratory in Batavia, Ill., will be shut down by 2010, and it is not yet clear whether a future facility will be constructed in the United States. An accelerator capable of operating at higher energies, the Large Hadron Collider (LHC), is being assembled in Geneva and will start operating in 2007. Now physicists around the world are planning to build an even more powerful one, the International Linear Collider (ILC). However, a decision on whether to build such a facility will not be reached until 2010 at the earliest, and its location has not yet been chosen.

The U.S. government should support the nation's involvement in both the LHC and the future ILC in conjunction with the newly proposed American Competitiveness Initiative's commitment to strengthen U.S. global leadership through continued technological advances. The government also should announce its strong desire to become the host country for the ILC, the report says. To achieve these two objectives, the particle physics budget needs to be increased by at least 2 percent to 3 percent per year in real terms; doubling the current budget over seven years would enable even more advances.

"Recently, both the executive and legislative branches of the federal government have expressed a desire to increase funding for basic research in the physical sciences," said Norman R. Augustine, a committee member and retired chairman and CEO of Lockheed Martin Corp., Bethesda, Md. "Particle physics addresses some of the most profound questions of nature, and soon, for the first time, the most compelling machine for exploring these questions will not be in the United States. The ILC gives us an opportunity to reverse our trend of disinvestment in this area and regain a position of strength."

The LHC in Europe will be the center of attention for particle physicists worldwide over the next 15 years because of its unique ability to address questions about the structure of matter and the evolution and composition of the universe. The United States has already made significant intellectual and financial contributions to this overseas project. Continued partnering in the construction and operation of this experiment should be the highest near-term priority for U.S. efforts in particle physics, the committee said. Funding for these efforts should rise at least at the rate of inflation to allow U.S. research groups to contribute significantly to the program.

Next, the most important priority for the United States should be a vigorous program of research and development for the future ILC. Expenditures in this area should be significantly expanded, the committee said. Congress should secure at least $500 million over the next five years to enable the nation to substantively participate in the global effort to design and engineer the facility. If a U.S. bid to host the facility is successful, additional resources would be required to construct and operate it. However, those decisions should be made when better cost estimates and initial results from the LHC experimental program are available. By committing to actively participate in the LHC and ILC projects, the United States would ensure that it can reap the benefits of future discoveries and remain a leader in particle physics, the report says.

Leadership in this field does not mean dominance, the committee added. Rather, the United States should partner with other countries in international efforts but play a central role in such partnerships. The United States should be willing to be a significant investor in key components of the LHC and be the lead investor in the remaining research and development necessary for an ILC. The committee believes that the combined capabilities of these two facilities will address the most important scientific questions in particle physics.

The United States should also increase its investment in activities at the interface between particle physics, astrophysics, and cosmology, the report says. Additionally, U.S. involvement in domestic and foreign programs studying particles called neutrinos should be planned in an international forum.

A standing national committee -- either newly formed or already existing, such as the High Energy Physics Advisory Panel -- should establish priorities among current and future U.S. particle physics projects, the report adds. The standing committee could also advise the National Science Foundation and U.S. Department of Energy, the federal agencies that support particle physics.

The study was sponsored by the National Science Foundation and the U.S. Department of Energy.

Source: National Academy of Sciences

Chemist Travels World to Study Mysterious Properties of Neutrinos
In the quest to better understand one of nature's most "ghostly" elementary particles — the neutrino — scientists at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory are spreading their expertise from the mines of Canada to the mountains of China. Richard L. Hahn, a senior chemist at Brookhaven Lab, will discuss some of the neutrino's mysterious properties and two new neutrino research projects at the 236th National Meeting of the American Chemical Society on Tuesday, August 19, 2008.
GLAST Burst Monitor Team Hard at Work Fine Tuning Instrument and Operations
(PhysOrg.com) -- While only on orbit for 40 days and still in the process of a two-month checkout, NASA's Gamma-ray Large Area Telescope (GLAST) has already detected 12 powerful gamma-ray bursts, an encouraging harbinger of good things to come for this mission. The gamma-ray bursts were detected by the GLAST Burst Monitor (GBM), one of two instruments on the spacecraft.
Polarizing filter allows astronomers to see disks surrounding black holes
(PhysOrg.com) -- For the first time, a team of international researchers has found a way to view the accretion disks surrounding black holes and verify that their true electromagnetic spectra match what astronomers have long predicted they would be. Their work will be published in the July 24 issue of the science journal Nature.
Physicists Discover New Particle: the Bottom-most 'Bottomonium'
(PhysOrg.com) -- Thirty years ago, particle physics delighted in discovering the "bottomonium" family—the set of particles that contain both a bottom quark and an anti-bottom quark but are bound together with different energies. Ever since, researchers have sought to ascertain the lowest energy state of these tiny yet important particles.
NASA calls on APL to send a probe to the sun
The Johns Hopkins University Applied Physics Laboratory is sending a spacecraft closer to the sun than any probe has ever gone - and what it finds could revolutionize what we know about our star and the solar wind that influences everything in our solar system.
Powerful antenna attached to NASA's GLAST satellite
The powerful antenna system that will enable NASA's Gamma-ray Large Area Telescope (GLAST) to communicate with stations on Earth has been successfully connected to the spacecraft in the Astrotech payload processing facility near NASA's Kennedy Space Center, Fla.
Delta II Rocket Coming Together for NASA's GLAST Satellite Launch
The Delta II 7920-H, or "Heavy," rocket that will launch NASA's Gamma-ray Large Area Telescope (GLAST) satellite is in the process of being assembled on Launch Pad 17-B at Cape Canaveral Air Force Station, Fla.
ATLAS completes world's largest jigsaw puzzle
Today the ATLAS collaboration at CERN celebrates the lowering of its last large detector element. The ATLAS detector is the world’s largest general-purpose particle detector, measuring 46 metres long, 25 metres high and 25 metres wide; it weighs 7000 tonnes and consists of 100 million sensors that measure particles produced in proton-proton collisions in CERN’s Large Hadron Collider (LHC).

U.S. Should Bid to Host Next Particle Accelerator, Report Says

Related stories:

News discussion: