Please note special day and time
Ultralight dark photons constitute a well-motivated candidate for dark matter. A coherent electromagnetic wave is expected to be induced by dark photons when coupled with Standard-Model photons through kinetic mixing mechanism, and should be spatially correlated within the de Broglie wavelength of dark photons. I will report the first search for correlated dark-photon signals using a long-baseline network of 15 atomic magnetometers, which are situated in two separated meter-scale shield rooms with a distance of about 1700 km. Both the network's multiple sensors and the shields large size significantly enhance the expected dark-photon electromagnetic signals, and long-baseline measurements confidently reduce many local noise sources. Using this network, we constrain the kinetic mixing coefficient of dark photon dark matter over the mass range 4.1 feV-2.1 peV, which represents the most stringent constraints derived from any terrestrial experiments operating over the aforementioned mass range.
Ultralight dark photons constitute a well-motivated candidate for dark matter. A coherent electromagnetic wave is expected to be induced by dark photons when coupled with Standard-Model photons through kinetic mixing mechanism, and should be spatially correlated within the de Broglie wavelength of dark photons. I will report the first search for correlated dark-photon signals using a long-baseline network of 15 atomic magnetometers, which are situated in two separated meter-scale shield rooms with a distance of about 1700 km. Both the network's multiple sensors and the shields large size significantly enhance the expected dark-photon electromagnetic signals, and long-baseline measurements confidently reduce many local noise sources. Using this network, we constrain the kinetic mixing coefficient of dark photon dark matter over the mass range 4.1 feV-2.1 peV, which represents the most stringent constraints derived from any terrestrial experiments operating over the aforementioned mass range.
| Building: | Randall Laboratory |
|---|---|
| Event Type: | Lecture / Discussion |
| Tags: | High Energy Theory Seminar, Physics |
| Source: | Happening @ Michigan from Leinweber Center for Theoretical Physics, Department of Physics, HET Seminars, Leinweber Center for Theoretical Physics Seminars, Leinweber Center for Theoretical Physics High Energy Theory Seminars |
Events
Featured
Apr
12
Saturday Morning Physics | VanLoo Family SMP: Graduate Student Research Presentations
Otávio Aves and Emilie LaVoie-Ingrahm (U-M Physics), Jared Mitchell (U-M Applied Physics)
10:30 AM
170 & 182 Auditoriums
Weiser Hall
Upcoming
Mar
19
HET Seminar | Search for dark photons with synchronized quantum sensor network
Yue Zhao (Utah)
12:00 PM
3481
Randall Laboratory
Mar
19
Applied Physics Seminar | Electrical Rotors Underlie Order and Disorder in the Fibrillating Heart
Omer Berenfeld, PhD., Professor of Internal Medicine, Biomedical Engineering and Applied Physics, Thematic Director, Cardiovascular Research Network (CRN), University of Michigan
12:00 PM
340
Virtual
Mar
20
The Department of Astronomy 2024-2025 Colloquium Series Presents:
Dr. Joe Hennawi, Associate Professor, UCSB
3:30 PM
411
West Hall
