Date/Time: Wed Nov 20 2024 at 13:00<br/><br/>Location: Theory Room/Remote<br/><br/>Speaker: Saniya Heeba (McGill U)<br/><br/>Title: A ROMP through Dark Matter<br/><br/>Abstract: The mechanism of Dark Matter (DM) production provides key insights into DM phenomenology at late times. In most models, DM is produced through annihilation or scattering processes which can be studied by using a classical Boltzmann equation. However, a wide class of DM models (such as axions, dark photons and sterile neutrinos) include a mixing between DM and another field giving rise to oscillations: an inherently quantum phenomenon. Additionally, the microphysical properties of DM, such as its mass and interactions strength, can deviate substantially from their vacuum values in the hot and dense plasma of the early universe further modifying DM production.
In this talk, I will discuss DM production in the context of such Rapidly Oscillating Massive Particles (ROMPs). I will detail a general framework for calculating DM abundance in such a setup, in the presence and absence of a resonance and accounting for the impact of the cosmological plasma. I will discuss the viable parameter space for such a production mechanism and the associated phenomenology.
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Remote Connection:
https://ubc.zoom.us/j/62535266430?pwd=THVrUzhMdjAyVkNnM05OUWRZYUppZz09
Meeting ID: 625 3526 6430
Passcode: 307647<br/><br/>.<br/><br/>______________________________<br/><br/>Detailed information available can be found at <a href='https://www.triumf.ca/research-program/lectures-conferences/upcoming-seminars-lectures'>https://www.triumf.ca/research-program/lectures-conferences/upcoming-seminars-lectures</a> <br/><br/>Date/Time: Thu Nov 21 2024 at 14:00<br/><br/>Location: Auditorium/Remote<br/><br/>Speaker: Steven Prohira (U Kansas)<br/><br/>Title: New (old) approaches to detection of ultrahigh energy neutrinos<br/><br/>Abstract: Ultrahigh energy neutrinos, with energies in excess of roughly 10 PeV, have yet to be detected, but likely hold clues to a) the identity of the sources of the most energetic particles in the universe and b) physics beyond the standard model. Neutrinos, with their extremely small (but, fascinatingly, non-zero) mass have been detected at earth with energies up to roughly 10 PeV by optical detectors such as IceCube, but above this energy their extremely low flux makes detecting significant numbers a challenge. Several experiments, current and future, have developed strategies to remotely instrument large target volumes to increase the chances of detection. In this talk I'll discuss two of these strategies that employ old technology and old ideas in a new way, toward the goal of developing instruments that detect these elusive and interesting particles.
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Remote Connection:
https://ubc.zoom.us/j/68840615455?pwd=WvaamZN2mapQKA5jfSZebIPB6X3N2U.1
Meeting ID: 688 4061 5455
Passcode: 661292<br/><br/>Coffee and cookies available 15min before colloquium. BYO mug/cup!<br/><br/>______________________________<br/><br/>Detailed information available can be found at <a href='https://www.triumf.ca/research-program/lectures-conferences/upcoming-seminars-lectures'>https://www.triumf.ca/research-program/lectures-conferences/upcoming-seminars-lectures</a> <br/><br/>