Abraham Seiden
I am an experimental particle physicist with broad interests in both the fundamental interactions among particles and the development of detectors to study such interactions.
I am an experimental particle physicist with broad interests in both the fundamental interactions among particles and the development of detectors to study such interactions.
I study experimental particle physics.
My research in experimental particle physics extends to novel instruments with applications in High Energy Physics, Astrophysics and Medicine.
Presently I develop ultra-fast silicon detectors for the pico-second region.
With the SCIPP ATLAS group, I search for new fundamental particles and interactions in high-energy particle collisions, and prepare for the next generation of particle colliders.
My research addresses theoretical and phenomenological aspects of high energy elementary particle physics with special attention to the role of the Higgs boson and new fundamental particles not yet discovered.
My research interests are mainly in the area of experimental particle physics although I have worked in other scientific areas that can profit from similar technological development.
I work on fundamental physics and instrumentation, with the current focus on ATLAS ITk (production of strip sensors and modules) and HPS experiment.
I study experimental particle physics.
I helped conceive and develop the Fermi Gamma-Ray Space Telescope Large Area Telescope.
I study the formation, nature, and evolution of the universe, focusing primarily on the model of eternal inflation and what it means for the beginning of the universe and time.
My research investigates Physics beyond the Standard Model, especially theories with supersymmetry.
My research focuses on observational cosmology and particle astrophysics, including constraints on the nature of dark matter and dark energy and studies of the evolution of galaxies.
I investigate new physics beyond the Standard Model with a focus on dark matter, baryogenesis, and new particles and their interactions.
My research deals with the interactions of elementary particles, the basic components of all matter. The main focus is the physics of the Higgs boson, especially the decay to bottom quarks. This research is conducted with the ATLAS experiment at CERN.
My current interests include dark energy studies using weak lensing and searches for signatures of dark matter.