ACME Groups
- DeMille Group (Yale)
- Doyle Group (Harvard)
- Gabrielse Group (Northwestern)
- Detector collaborator group (Koji Yoshimura, Noboru Sasao, Satoshi Uetake, Takahiko Masuda, Okayama University)
Other Electron EDM Groups
- YbF eEDM (Ed Hinds, Ben Sauer, Mike Tarbutt, Imperial College)
- HF+ eEDM (Eric Cornell, Jun Ye, JILA)
- Polyatomic eEDM collaboration (Harvard, Caltech, University of Arizona, University of Toronto)
- EDM3 Collaboration (York University, Michigan State University, University of Toronto)
- BaF eEDM (University of Groningen)
- Searches for permanent EDMs worldwide (compiled by the Paul Scherrer Institute)
Non-ACME Papers
- Interpreting the electron EDM constraint
- Cesarotti et. al. Theoretical interpretation of the ACME II result,
showing that it constrains new CP-violating physics at the 3-30 TeV
level.
- A precision measurement of the electron's electric dipole moment using trapped molecular ions - Cairncross et al. First electron EDM measurement using trapped molecular HfF+ ions from the Cornell and Ye groups at JILA (2017).
- Theoretical study of ThO for the electron electric dipole moment search - Titov et al. Calculation of effective internal electric field (2013).
- Measurement of the electron's electric dipole moment using YbF molecules: methods and data analysis - Hinds et al. Long paper for Hinds measurement of eEDM (2012).
- Improved measurement of the shape of the electron - Hinds et al. Previous eEDM limit from the Imperial College group using YbF (2011).
- Prospects for an electron electric-dipole moment search in metastable ThO and ThF+ - Meyer and Bohn. Previous calculation of effective internal electric field (2008).
- New Limit on the Electron Electric Dipole Moment - DeMille et al. Previous eEDM limit using thallium (2002).