The STAR detector at the Relativistic Heavy Ion Collider looks for signs of quark–gluon plasmas. Credit: Brookhaven Natl Lab./INTERACTIONS.ORG

When the Large Hadron Collider (LHC) in Switzerland seized the world record for the highest-energy collisions in 2010, it also sealed the fate of the leading US particle collider. The Tevatron, at Fermi National Accelerator Laboratory in Batavia, Illinois, was closed the following year to save money.

Now, physicists at another US physics facility, the Relativistic Heavy Ion Collider (RHIC) at Brookhaven National Laboratory in Upton, New York, are trying to avoid a similar end. On 13 August, researchers at the ALICE heavy-ion experiment at the LHC at CERN, Europe’s particle-physics lab near Geneva, announced that they had created the hottest-ever man-made plasma of quarks and gluons. This eclipsed the record temperature achieved at RHIC two years earlier by 38%, and raised uncomfortable questions about RHIC’s future.

This European achievement comes as a nuclear-science advisory committee to the US Department of Energy and the National Science Foundation prepares to meet on 7–9 September to start a prioritization process. The discussions will pit RHIC against two other US facilities: the Continuous Electron Beam Accelerator Facility (CEBAF) at the Jefferson National Laboratory in Newport News, Virginia, and the Facility for Rare Isotope Beams (FRIB), to be built at Michigan State University in East Lansing (see ‘Competing for survival’).

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The committee has been charged with prioritizing the facilities within various scenarios of flat and slightly rising physics budgets. Nuclear physicist Robert Tribble of Texas A&M University in College Station, who is chairman of the advisory committee, says that in the flat scenario, there is only enough funding to support two of the three facilities. “It doesn’t all fit,” he says.

Steven Vigdor, who oversees RHIC as associate laboratory director for particle and nuclear physics at Brookhaven, naturally hopes that the committee will decide to scale back plans for another facility. But he admits that the Brookhaven team is already on the back foot because RHIC was ranked lower than the other two facilities in a 2007 prioritization effort, also headed by Tribble.

A plan to increase the energy of CEBAF, by contrast, came out on top in the 2007 report, and with the upgrade now 60% complete, the facility looks to be on the safest ground for the latest ranking process. With beams of electrons reaching 12 gigaelectronvolts, the upgraded CEBAF will make further studies of the arrangement of the quarks and gluons that make up protons and neutrons. It will also look for exotic particles, made up of quarks, that are predicted by quantum chromo­dynamics — the theory that describes how quarks and gluons interact.

Next comes FRIB, which promises to advance the study of nuclear structure by colliding beams of heavy ions to produce hundreds of nuclear isotopes that have never been created before. But the facility is vulnerable because it has not yet been built. Scientists at FRIB have won political support by obtaining US$94.5 million of its $680-million cost from Michigan State University, and by promising to discover isotopes with medical, energy and national-security applications. “The country will get the benefits of the new isotopes,” says FRIB director Konrad Gelbke.

To keep CEBAF and FRIB on schedule, however, it is likely that US funding agencies would have to close RHIC prematurely. Vigdor says that would be a mistake. Despite ALICE now generating plasmas at higher temperatures, he says, theorists testing quantum chromo­dynamics will still want to use RHIC’s lower energies and temperatures to map the phase transitions between quark–gluon plasmas and ordinary matter under various conditions.

When you terminate a facility, those funds tend to move away from the field.

Vigdor also points out that RHIC’s construction is a past investment that is now bearing fruit. Closing it would not necessarily guarantee the funding of a facility such as FRIB. He says that it is “naive” to think that closing RHIC or CEBAF would free up funds for a new machine. “When you terminate a facility, those funds tend to move away from the field.”

The trade-off between CEBAF and RHIC could have other important implications for their respective host labs. Nuclear physicists hope eventually to build an even higher-energy, polarized electron–ion collider that would be able to image the gluons that hold together quarks in the proton.

Both the Brookhaven and Jefferson labs are eager to host that machine, says Robert McKeown, deputy director for science at Jefferson. But he says that if the effort moves forward, the lab that prevails in the current showdown is likely to win the future collider as well.

Tribble still hopes to avoid having to close any of the three facilities. In 2005, he notes, a similar crisis was averted after an advisory committee laid out the dire consequences of flat funding for the future of US nuclear science. In the end, Congress came through with the budgetary increases required. “What we want to do here is to spell out what will be lost under different budgets,” he says. His committee is planning to hold a final meeting in November, in time to influence the budget requests from US funding agencies for the next fiscal year.

Table 7.6098 COMPETING FOR SURVIVAL