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Dialing in the temperature needed for precise nuclear timekeeping
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Dialing in the temperature needed for precise nuclear timekeeping
by Kenna Hughes-Castleberry, JILA Science Communicator
Boulder CO (SPX) Mar 18, 2025

For decades, atomic clocks have been the pinnacle of precision timekeeping, enabling GPS navigation, cutting-edge physics research, and tests of fundamental theories. But researchers at JILA, led by JILA and NIST Fellow and University of Colorado Boulder physics professor Jun Ye, in collaboration with the Technical University of Vienna, are pushing beyond atomic transitions to something potentially even more stable: a nuclear clock. This clock could revolutionize timekeeping by using a uniquely low-energy transition within the nucleus of a thorium-229 atom. This transition is less sensitive to environmental disturbances than modern atomic clocks and has been proposed for tests of fundamental physics beyond the Standard Model.

This idea isn't new in Ye's laboratory. In fact, work in the lab on nuclear clocks began with a landmark experiment, the results of which were published as the cover article of Nature last year, where the team made the first frequency-based, quantum-state-resolved measurement of the thorium-229 nuclear transition in a thorium-doped host crystal. This achievement confirmed that thorium's nuclear transition could be measured with enough precision to be used as a timekeeping reference.

However, to build a precise clock, researchers must fully characterize how the transition responds to external conditions, including temperature. That's where this new investigation-an "Editor's Choice" paper published in Physical Review Letters-comes in, as the team studied the energy shifts in the thorium nuclei as the crystal containing the atoms was heated to different temperatures.

"This is the first step toward characterizing the systematics of the nuclear clock," says JILA postdoctoral researcher Dr. Jacob Higgins, the study's first author. "We have found a transition that's relatively insensitive to temperature, which is exactly what we want for a precision timekeeping device."

"A solid-state nuclear clock has a great potential to become a robust and portable timing device that is highly precise," notes Jun Ye. "We are searching for the parameter space for a compact nuclear clock to maintain 10-18 fractional frequency stability for continuous operation."

The Precision of Nuclear Clocks

Because the nucleus of an atom is less affected by environmental disturbances than its electrons, a nuclear clock could retain accuracy under conditions where atomic clocks would falter, as the clock is more resistant to noise. Among all other nuclei, thorium-229 is particularly well-suited for this because it has a nuclear transition with unusually low energy, making it possible to probe with ultraviolet laser light rather than high-energy gamma rays.

As opposed to measuring thorium in a trapped ion system, the Ye lab has taken a different approach: embedding thorium-229 into a solid-state host-a calcium fluoride (CaF2) crystal. This method, developed by their collaborators at the Technical University of Vienna, allows for a much higher density of thorium nuclei than traditional ion-trap techniques. More nuclei means stronger signals and better stability for measuring the nuclear transition.

Heating a Nuclear Clock

To look at how temperature affects this nuclear transition, the researchers both cooled and heated the thorium-doped crystal to three different temperatures: 150K (-123C) with liquid nitrogen, 229K (-44C) with a dry ice-methanol mixture, and 293K (around room temperature). Using a frequency comb laser, they measured how the nuclear transition frequency shifted at each temperature, revealing two competing physical effects within the crystal.

For one effect, as the crystal warmed, it expanded, subtly altering the atomic lattice and shifting the electric field gradients experienced by the thorium nuclei. This electric field gradient caused the thorium transition to split into multiple spectral lines, which shifted in different directions as the temperature changed. The second effect is that the lattice expansion also changed the charge density of electrons in the crystal, modifying the electrons' interaction strength with the nucleus and causing the spectral lines to move in the same direction.

As these two effects fought for control of the thorium atoms, one particular transition was observed to be far less temperature-sensitive than the others, as the two effects mostly canceled each other out. Across the full temperature range examined, this transition shifted by only 62 kilohertz, a shift at least 30 times smaller than in the other transitions.

"This transition is behaving in a way that's really promising for clock applications," adds Chuankun Zhang, a JILA graduate student. "If we can stabilize it further, it could be a real game-changer in precision timekeeping."

As a next step, the team plans to look for a temperature 'sweet spot' where the nuclear transition remains almost completely independent of temperature. Their initial data suggests that somewhere between 150K and 229K, the transition frequency would be even easier to temperature stabilize, providing an ideal operating condition for a future nuclear clock.

Customizing a Nuclear Clock System

Building an entirely new type of clock requires one-of-a-kind-designed equipment, much of which doesn't exist to the level of customization required. Thanks to JILA's instrument shop-with its machinists and engineers-the team was able to create critical components for their experiment.

"Kim Hagan and the whole instrument shop have been super helpful throughout this process," Higgins notes. "They machined the crystal mount, which holds the thorium-doped crystal, and built parts of the cold trap system that allowed us to control the temperature precisely."

Having in-house machining expertise allowed the researchers to quickly iterate on designs and ensure that even small changes-such as swapping out the crystal-could be done with ease.

"If we only had used off-the-shelf parts, we wouldn't have had the same level of confidence in our setup," adds JILA graduate student Tian Ooi, another team member. "The custom-built pieces from the instrument shop save us so much time."

Sensing Beyond Time

While the primary goal of this research is to develop a more stable nuclear clock, its implications go beyond timekeeping. The thorium nuclear transition is very insensitive to disturbances in its environment, but highly sensitive to variations in fundamental forces-any unexpected shift in its frequency could indicate new physics, such as the presence of dark matter.

"The nuclear transition's sensitivity could allow us to probe new physics," Higgins explains. "Beyond just making a better clock, this could open doors to entirely new ways of studying the universe."

This research was supported by the Army Research Office, the Air Force Office of Scientific Research, the National Science Foundation, the Quantum System Accelerator, and the National Institute of Standards and Technology (NIST).

Research Report:Temperature Sensitivity of a Thorium-229 Solid-State Nuclear Clock

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