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    • 2019-12-17 12:50:25
    • Article ID: 724155

    GODDESS detector sees the origins of elements

    Products of nuclear transmutations are spotted with unprecedented detail

    • Credit: Andrew Ratkiewicz/Oak Ridge National Laboratory, U.S. Dept. of Energy

      GODDESS is shown coupled to GRETINA with experimenters, from left, Heather Garland, Chad Ummel and Gwen Seymour, all of Rutgers University, and Rajesh Ghimire of University of Tennessee–Knoxville and ORNL; and from left (back row), Josh Hooker of UTK and Steven Pain of ORNL.

    • Credit: Steven Pain/Oak Ridge National Laboratory, U.S. Dept. of Energy

      GODDESS’s ORRUBA component, shown in an early form that was not compact enough for coupling with gamma-ray detectors, will travel to MSU for a stand-alone study of potassium-38 (of interest for novae studies) and for later coupling with GRETINA to explore germanium-80 (relevant to understanding the r process).

    • Credit: Steven Pain/Oak Ridge National Laboratory, U.S. Dept. of Energy

      ORRUBA now fits tidily into this 14-inch-diameter sphere. At left, a beam line directs energetic radioactive nuclei into the sphere to strike a central target. The shiny silicon detectors inside the sphere form the staves of ORRUBA’s barrel.

    • Credit: Steven Pain/Oak Ridge National Laboratory, U.S. Dept. of Energy

      GODDESS measures transfer reactions occurring after a radioactive beam bombards a deuterium-containing target inside a barrel of silicon detectors. “It’s pretty much silicon in every direction,” Pain said. “No matter where the particle comes out, we detect it.”

    • Credit: Steven Pain/Oak Ridge National Laboratory, U.S. Dept. of Energy

      GRETINA’s main frame, a metal “wiffle ball” that supports its germanium detectors, points at a sphere containing the silicon array. The frame’s halves open to allow access to the central volume and close when experiments are running.

    Ancient Greeks imagined that everything in the natural world came from their goddess Physis; her name is the source of the word physics. Present-day nuclear physicists at the Department of Energy’s Oak Ridge National Laboratory have created a GODDESS of their own—a detector providing insight into astrophysical nuclear reactions that produce the elements heavier than hydrogen (this lightest of elements was created right after the Big Bang). 

    Researchers developed a state-of-the-art charged particle detector at ORNL called the Oak Ridge Rutgers University Barrel Array, or ORRUBA, to study reactions with beams of astrophysically important radioactive nuclei. Recently, its silicon detectors were upgraded and tightly packed to prepare it to work in concert with large germanium-based gamma-ray detectors, such as Gammasphere, and the next-generation gamma-ray tracking detector system, GRETINA. The result is GODDESS—Gammasphere/GRETINA ORRUBA: Dual Detectors for Experimental Structure Studies. [Watch a time-lapse video here of one day of work to couple GODDESS with Gammasphere for the first time.] 

    With millimeter position resolution, GODDESS records emissions from reactions taking place as energetic beams of radioactive nuclei gain or lose protons and neutrons and emit gamma rays or charged particles, such as protons, deuterons, tritons, helium-3 or alpha particles. 

    “The charged particles in the silicon detectors tell us how the nucleus was formed, and the gamma rays tell us how it decayed,” explained Steven Pain of ORNL’s Physics Division. “We merge the two sets of data and use them as if they were one detector for a complete picture of the reaction.” 

    Earlier this year, Pain led more than 50 scientists from 12 institutions in GODDESS experiments to understand the cosmic origins of the elements. He is principal investigator of two experiments and co-principal investigator of a third. Data analysis of the complex experiments is expected to take two years. 

    “Almost all heavy stable nuclei in the universe are created through unstable nuclei reacting and then coming back to stability,” Pain said.

     

    A century of nuclear transmutation

    In 1911 Ernest Rutherford was astounded to observe that alpha particles—heavy and positively charged—sometimes bounced backward. He concluded they must have hit something extremely dense and positively charged—possible only if almost all an atom’s mass were concentrated in its center. He had discovered the atomic nucleus. He went on to study the nucleons—protons and neutrons—that make up the nucleus and that are surrounded by shells of orbiting electrons. 

    One element can turn into another when nucleons are captured, exchanged or expelled. When this happens in stars, it’s called nucleosynthesis. Rutherford stumbled upon this process in the lab through an anomalous result in a series of particle-scattering experiments. The first artificial nuclear transmutation reacted nitrogen-14 with an alpha particle to create oxygen-17 and a proton. The feat was published in 1919, seeding advances in the newly invented cloud chamber, discoveries about short-lived nuclei (which make up 90% of nuclei), and experiments that continue to this day as a top priority for physics

    “A century ago, the first nuclear reaction of stable isotopes was inferred by human observers counting flashes of light with a microscope,” noted Pain, who is Rutherford’s “great-great-grandson” in an academic sense: his PhD thesis advisor was Wilton Catford, whose advisor was Kenneth Allen, whose advisor was William Burcham, whose advisor was Rutherford. “Today, advanced detectors like GODDESS allow us to explore, with great sensitivity, reactions of the difficult-to-access unstable radioactive nuclei that drive the astrophysical explosions generating many of the stable elements around us.”

     

    Understanding thermonuclear runaway

    One experiment Pain led focused on phosphorus-30, which is important for understanding certain thermonuclear runaways. “We’re looking to understand nucleosynthesis in nova explosions—the most common stellar explosions,” he said. A nova occurs in a binary system in which a white dwarf gravitationally pulls hydrogen-rich material from a nearby “companion” star until thermonuclear runaway occurs and the white dwarf’s surface layer explodes. The ashes of these explosions change the chemical composition of the galaxy. 

    University of Tennessee graduate student Rajesh Ghimire is analyzing the data from the phosphorus experiment, which transferred a neutron from deuterium in a target onto an intense beam of the short-lived radioactive isotope phosphorus-30. The particle and gamma-ray detectors spotted what emerged, correlating times, places and energies of proton and gamma ray production.

    The phosphorus-30 nucleus strongly affects the ratios of most of the heavier elements produced during a nova explosion. If the phosphorus-30 reactions are understood, the elemental ratios can be used to measure the peak temperature that the nova reached. “That’s an observable that somebody with a telescope could see,” Pain said.

     

    Illuminating heavy-element creation

    The second experiment Pain led transmuted a much heavier isotope, tellurium-134. “This nucleus is involved in the rapid neutron capture process, or r process, which is the way that half the elements heavier than iron are formed in the universe,” Pain related. It occurs in an environment with many free neutrons—perhaps supernovae or neutron star mergers. “We know it happens, because we see the elements around us, but we still don’t know exactly where and how it occurs.” 

    Understanding r-process nucleosynthesis will be a major activity at the Facility for Rare Isotope Beams (FRIB), a DOE Office of Science user facility scheduled to open at Michigan State University (MSU) in 2022. FRIB will enable discoveries about rare isotopes, nuclear astrophysics and fundamental interactions, and applications in medicine, homeland security and industry. 

    “The r process is a very, very complicated network of reactions; many, many pieces go into it,” Pain emphasized. “You can’t do one experiment and have the answer.” 

    The tellurium-134 experiment starts with radioactive californium made at ORNL and installed at the Argonne Tandem Linear Accelerator System (ATLAS), a DOE Office of Science user facility at Argonne National Laboratory. The californium fissions spontaneously, with tellurium-134 among the products. A beam of tellurium-134 is accelerated into a deuterium target and absorbs a neutron, spitting out a proton in the process. “Tellurium-134 comes in, but tellurium-135 goes out,” Pain summed up. 

    “We detect that proton in the silicon detectors of GODDESS. The tellurium-135 continues down the beam line. The energy and angle of the proton tell us about the tellurium-135 we’ve created—it could be in its ground state or in any one of a number of excited states. The excited states decay by emitting a gamma ray.” The germanium detectors reveal the energy of the gamma rays with unprecedented resolution to show how the nucleus decayed. Then the nucleus enters a gas detector, creating a track of ionized gas from which the removed electrons are collected. Measuring the energy deposited in different regions of the detector allows researchers to definitively identify the nucleus. 

    Rutgers graduate student Chad Ummel is focusing on the experiment’s analysis. Said Pain, “We’re trying to understand the role of this tellurium-134 nucleus in the r process in different potential astrophysical sites. The reaction flow in this network of neutron capture reactions affects the abundances of the elements created. We need to understand this network to understand the origin of the heavy elements.”

     

    Future of the GODDESS

    The researchers will continue developing equipment and techniques for current use of GODDESS at Argonne and MSU and future use at FRIB, which will give unprecedented access to many unstable nuclei currently out of reach. Future experiments will employ two strategies.

    One uses fast beams of nuclei that have been fragmented into other nuclei. Pain likens the diverse nuclear products to a whole zoo hurtling down the beam line in chaos. The fast-moving nuclei pass through a series of magnets that select desired “zebras” and discard unwanted “giraffes,” “gnus” and “hippos.” 

    The other approach stops the ions with a material, re-ionizes them, then reaccelerates them before they can radioactively decay. Explained Pain, “It allows you to corral all zebras, calm them down, then orderly bring them out in the direction, rate and speed that you want.” 

    Taming the elements that make planets and people possible—that’s indeed the domain of a physics GODDESS. 

    DOE’s Office of Science supports Pain’s research. DOE’s National Nuclear Security Administration funded some past detector research.

     

    UT-Battelle manages ORNL for DOE’s Office of Science. The single largest supporter of basic research in the physical sciences in the United States, the Office of Science is working to address some of the most pressing challenges of our time. For more information, visit https://energy.gov/science. —by Dawn Levy

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