Speaker: Leonardo Piacevole, from Naples University Federico II, who is going to continue his presentation on Dual Grand Unified Theories. More information is reported here below.
Abstract: The Standard Model, despite its successes, has several open questions. One of such is the "true" Higgs nature. If we adopt the "Seiberg duality" to a non supersymmetric QCD with a new Weyl fermion in the adjoint of the group ( gluino ) and we gauge the flavour group in order to reinstate the electroweak group, the Standard Model appears as part of a "magnetic theory" which is the dual of a more fundamental "electric theory" at higher energies. Therefore the Higgs can be seen as a bound state of the electric theory fermionic degrees of freedom.
We constructed the Standard Model dual spectrum and we discussed the predictions of this new interpretation of the theory. Then, we explored novel theories of grand unification based on the electric Standard Model Theory with focus on the SU(5) and the SU(10) grand unified group.
Location: The DIAS Meetingroom Nord (V24-410-2)
You can also join via Zoom (passcode: 060379).
The event is open to all.
Abstract: The Standard Model, despite its successes, has several open questions. One of such is the "true" Higgs nature. If we adopt the "Seiberg duality" to a non supersymmetric QCD with a new Weyl fermion in the adjoint of the group ( gluino ) and we gauge the flavour group in order to reinstate the electroweak group, the Standard Model appears as part of a "magnetic theory" which is the dual of a more fundamental "electric theory" at higher energies. Therefore the Higgs can be seen as a bound state of the electric theory fermionic degrees of freedom.
We constructed the Standard Model dual spectrum and we discussed the predictions of this new interpretation of the theory. Then, we explored novel theories of grand unification based on the electric Standard Model Theory with focus on the SU(5) and the SU(10) grand unified group.
Location: The DIAS Meetingroom Nord (V24-410-2)
You can also join via Zoom (passcode: 060379).
The event is open to all.
- Organizer: Quantum Field Theory Center
- Address: Fioniavej 34, 5230 Odense M
- Contact Email: damiapaciarinim@imada.sdu.dk
- Add to your calendar: https://eom.sdu.dk:443/events/ical/89fed954-a083-4acc-bc77-d8827175682a