Dr Benjamin Roberts
Dr

Benjamin Roberts

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Background

Working in theoretical atomic physics and particle astrophysics. My research focusses on high-precision atomic structure calculations, and how atomic processes can be used for testing fundamental theories, probing for physics beyond the standard model, and searching for dark matter. This is complimentary to the high-energy tests performed at CERN. Some research highlights include: searching for variations in the fundamental constants near the super-massive black hole at the centre of our galaxy [1]; using decades of archived atomic clock data from the GPS satellites to search for signatures of dark matter [2]; performing high-precision calculations of symmetry violations in atoms, allowing the most precise low-energy test of the standard model to date [3-5]; and proposing and quantifying novel experimental signatures of dark matter that exploit atomic (rather than the typical nuclear) phenomena, opening the door to a wide range of previously “invisible” models [6-10].

  1. A. Hees, T. Do, B. M. Roberts, A. M. Ghez, S. Nishiyama, R. O. Bentley, A. K. Gautam, S. Jia, T. Kara, J. R. Lu, H. Saida, S. Sakai, M. Takahashi, and Y. Takamori, Search for a Variation of the Fine Structure Constant around the Supermassive Black Hole in Our Galactic Center, Phys. Rev. Lett. 124, 081101 (2020).
  2. B. M. Roberts, G. Blewitt, C. Dailey, M. Murphy, M. Pospelov, A. Rollings, J. Sherman, W. Williams, and A. Derevianko, Search for Domain Wall Dark Matter with Atomic Clocks on Board Global Positioning System Satellites, Nature Comm. 8, 1195 (2017).
  3. V. A. Dzuba, J. C. Berengut, V. V. Flambaum, and B. M. Roberts, Revisiting Parity Nonconservation in Cesium, Phys. Rev. Lett. 109, 203003 (2012).
  4. B. M. Roberts and J. S. M. Ginges, Nuclear Magnetic Moments of Francium-207–213 from Precision Hyperfine Comparisons, Phys. Rev. Lett. 125, 063002 (2020).
  5. G. Sanamyan, B. M. Roberts, and J. S. M. Ginges, Empirical Determination of the Bohr-Weisskopf Effect in Cesium and Improved Tests of Precision Atomic Theory in Searches for New Physics, Phys. Rev. Lett. 130, 053001 (2023).
  6. B. M. Roberts, Y. V. Stadnik, V. A. Dzuba, V. V. Flambaum, N. Leefer, and D. Budker, Limiting P-Odd Interactions of Cosmic Fields with Electrons, Protons, and Neutrons, Phys. Rev. Lett. 113, 081601 (2014).
  7. B. M. Roberts, V. V. Flambaum, and G. F. Gribakin, Ionization of Atoms by Slow Heavy Particles, Including Dark Matter, Phys. Rev. Lett. 116, 023201 (2016).
  8. B. M. Roberts et al., Search for Transient Variations of the Fine Structure Constant and Dark Matter Using Fiber-Linked Optical Atomic Clocks, New J. Phys. 22, 093010 (2020).
  9. E. Savalle, A. Hees, F. Frank, E. Cantin, P.-E. Pottie, B. M. Roberts, L. Cros, B. T. McAllister, and P. Wolf, Searching for Dark Matter with an Optical Cavity and an Unequal-Delay Interferometer, Phys. Rev. Lett. 126, 051301 (2021).
  10. M. Filzinger, A. Caddell, D. Jani, M. Steinel, L. Giani, N. Huntemann, and B. M. Roberts, Ultralight Dark Matter Search with Space-Time Separated Atomic Clocks and Cavities, Phys. Rev. Lett. 134, 031001 (2025)

Availability

Dr Benjamin Roberts is:
Available for supervision
Media expert

Fields of research

Astronomical sciences Atomic, molecular and optical physics Particle and high energy physics Physical Sciences

Qualifications

  • Doctor of Philosophy, University of New South Wales

Research interests

  • Atomic structure theory

  • Low-energy tests of fundamental physics

  • Dark matter

  • Particle astrophysics

Search Professor Benjamin Roberts’s works on UQ eSpace

46 works between 2012 and 2025
All (46) Journal Article (38) Conference Publication (8)

41 - 46 of 46 works

2014

Journal Article

Strongly enhanced atomic parity violation due to close levels of opposite parity

Roberts, B. M., Dzuba, V. A. and Flambaum, V. V. (2014). Strongly enhanced atomic parity violation due to close levels of opposite parity. Physical Review A, 89 (4) 042509. doi: 10.1103/physreva.89.042509

Strongly enhanced atomic parity violation due to close levels of opposite parity

2014

Journal Article

Nuclear-spin-dependent parity nonconservation in s-d5/2 and s-d3/2 transitions

Roberts, B. M., Dzuba, V. A. and Flambaum, V. V. (2014). Nuclear-spin-dependent parity nonconservation in s-d5/2 and s-d3/2 transitions. Physical Review A, 89 (1) 012502. doi: 10.1103/physreva.89.012502

Nuclear-spin-dependent parity nonconservation in s-d5/2 and s-d3/2 transitions

2013

Journal Article

Double-core-polarization contribution to atomic parity-nonconservation and electric-dipole-moment calculations

Roberts, B. M., Dzuba, V. A. and Flambaum, V. V. (2013). Double-core-polarization contribution to atomic parity-nonconservation and electric-dipole-moment calculations. Physical Review A, 88 (4) 042507. doi: 10.1103/physreva.88.042507

Double-core-polarization contribution to atomic parity-nonconservation and electric-dipole-moment calculations

2013

Journal Article

Parity nonconservation in Fr-like actinide and Cs-like rare-earth-metal ions

Roberts, B. M., Dzuba, V. A. and Flambaum, V. (2013). Parity nonconservation in Fr-like actinide and Cs-like rare-earth-metal ions. Physical Review A, 88 (1) 012510. doi: 10.1103/physreva.88.012510

Parity nonconservation in Fr-like actinide and Cs-like rare-earth-metal ions

2013

Journal Article

Quantum electrodynamics corrections to energies, transition amplitudes, and parity nonconservation in Rb, Cs, Ba+, Tl, Fr, and Ra+

Roberts, B. M., Dzuba, V. A. and Flambaum, V. V. (2013). Quantum electrodynamics corrections to energies, transition amplitudes, and parity nonconservation in Rb, Cs, Ba+, Tl, Fr, and Ra+. Physical Review A, 87 (5) 054502. doi: 10.1103/physreva.87.054502

Quantum electrodynamics corrections to energies, transition amplitudes, and parity nonconservation in Rb, Cs, Ba+, Tl, Fr, and Ra+

2012

Journal Article

Calculation of the parity-violating 5s-6s E1 amplitude in the rubidium atom

Dzuba, V. A., Flambaum, V. V. and Roberts, B. (2012). Calculation of the parity-violating 5s-6s E1 amplitude in the rubidium atom. Physical Review A, 86 (6) 062512. doi: 10.1103/physreva.86.062512

Calculation of the parity-violating 5s-6s E1 amplitude in the rubidium atom

Current funding

  • 2025 - 2028
    Nuclear structure and precision tests of fundamental physics in atoms
    ARC Discovery Projects
    Open grant
  • 2023 - 2026
    Probing new physics with atomic parity violation
    ARC Discovery Projects
    Open grant
  • 2021 - 2025
    Atomic physics as a probe for fundamental physics and dark matter
    ARC Discovery Early Career Researcher Award
    Open grant

Availability

Dr Benjamin Roberts is:
Available for supervision

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Supervision history

Current supervision

Enquiries

Contact Dr Benjamin Roberts directly for media enquiries about:

  • Atomic clock
  • Atomic physics
  • Dark matter
  • particle astrophysics

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