:Speaker
Dr. Moslem Zarei
:title
Axion-like dark matter detection using quantum sensors
:abstract
Quantum sensors based on the superposition of neutral atoms are promising for sensing the nature of dark matter (DM). In this talk, we will discuss the uses of the Stern-Gerlach (SG) interferometer configuration to seek a novel method to detect axion-like particles (ALPs). Using an SG interferometer, we create a spatial quantum superposition of neutral atoms such as Hellium-3 and Rubidium-87. It is
shown that the interaction of ALPs with this superposition induces a relative phase between superposed quantum components. We use the quantum Boltzmann equation (QBE) to introduce a first principal analysis that describes the temporal evolution of the sensing system. QBE approach
uses quantum field theory (QFT) to highlight the role of the quantum nature of the interactions with the quantum systems. The resulting exclusion area shows that our scheme allows for the exclusion of a range of ALPs mass between m_a=10^{-10} to 10^{2} eV and ALPs-atom coupling constant between g=10^{-13} to 10^{0} eV.