Research
The Bartram lab is searching for a dark matter candidate known as the axion.
Please see a list of publications below:
- Search for Invisible Axion Dark Matter in the 3.3–4.2 𝜇eV Mass Range
- Axion dark matter experiment: Run 1B analysis details
- Dark matter axion search using a Josephson traveling wave parametric amplifier
- Axion dark matter experiment: Detailed design and operations
- Search for a Dark-Matter-Induced Cosmic Axion Background with ADMX
- ADMX Axion Dark Matter Bounds around 3.3 ueV with Dine-Fischler-Srednicki-Zhitnisky Discovery Ability
- Axion Dark Matter eXperiment: Run 1A analysis details
- Electromagnetic modeling and science reach of DMRadio-m3
- Nonvirialized axion search sensitive to Doppler effects in the Milky Way halo
- High-volume tunable resonator for axion searches about 7 GHz
- Maximizing quantum enhancement in axion dark matter experiments
- Improved receiver noise calibration for ADMX axion search: 4.54 to 5.41 ueV
- Noise limits for dc SQUID readout of high-Q resonators below 300 MHz
