Cabibbo@60

15 Mar 2024, 09:30 → 16 Mar 2024, 18:30 Asia/Kolkata

Department of Physics, Central University of Karnataka

In 1961, Feynman and Gell-Mann's theory  on Fermi constants in muon and neutron-beta decay demonstrated the universality of weak interactions, revealing a common origin and equal strengths in nuclear and lepton vector currents, simplifying understanding. Concerns about smaller Fermi constants in strange-particle beta decays were addressed by Nicola Cabibbo's 1963 article, which modified the vector-coupling constant by introducing a factor sinθ, where θ is now recognized as the Cabibbo angle, thereby laying the groundwork for the modern unification of electromagnetic and weak interactions. The Cabibbo theory, pivotal upon publication, not only embodied lepton-hadron universality successfully but also hinted at a fundamental theory of weak interactions. The introduction of quark mixing in the theory addressed the suppression of strangeness-changing neutral processes through the GIM mechanism, where the charm quark coupled to a combination of down and strange quarks orthogonal to the Cabibbo combination. Cabibbo's introduction of quark mixing is encapsulated in the Cabibbo–Kobayashi–Maskawa (CKM) matrix, a three-by-three unitary matrix. Over the past 60 years, the CKM scheme has been consistently confirmed through precise measurements and theoretical predictions, serving as a highly successful framework that accurately predicts weak processes and deepens our understanding of CP violation sources in the universe.

Intended Participants:     

On the eve of the 60th anniversary of the Cabibbo angle, the planned one-day conference, "Cabibbo@60," will encompass a broad theoretical and experimental High Energy Physics perspective. 

The intended participants include B.Sc. Physics, M.Sc. Physics, and Research Scholars (both internal and external), early-stage postdoc fellows with an interest in High Energy Physics.

For more details, please contact Dr. Suchismita Sahoo: suchismita@cuk.ac.in

Registration is free but mandatory for all participants. Limited accommodation is available but not guaranteed for all.

Registration closes on 10 March 2024.

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LOC: Dr. Bharat Kumar, Dr. Deepak Samuel, Dr. Rajeev Joshi, Dr. P. Anjaneyulu, Dr. Suchismita Sahoo, Dr. Narasimha Raju.

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poster.pdf

Friday 15 March

10:00 → 11:00 Inauguration

11:00 → 11:15 Tea

11:15 → 12:00 Talk 1: TBD

Speaker: Rukmani Mohanta

12:00 → 12:45 Talk 3: TBD

Speaker: Dr Saurabh Sandilya (Indian Institute of Technology Hyderabad)

12:45 → 13:45 Lunch

13:45 → 14:30 Talk 2: (Online)

Speaker: Bhawna Gomber (University of Hyderabad, India)

14:30 → 15:15 Talk 4: (Online)

Speaker: Dr Alekha Nayak

15:15 → 15:30 Tea

15:30 → 15:50 Talk: SS (SBD)

Speaker: Suchismita Sahoo

15:50 → 16:10 Talk 5: PDF (TBD)

Speaker: Sambit Kumar Pusty (University of Hyderabad, Telangana, India)

16:10 → 16:30 Talk 6: PHD (TBD)

Speaker: Dhiren Panda (UNIVERSITY OF HYDERABAD)

16:30 → 16:50 GNN-based track finding for J-PARC muon g-2 experiments

Speaker: Saranya Nandakumar (Indian Institute of Technology, Hyderabad)

16:50 → 17:10 Talk 7: PHD (TBD)

Speaker: Mr Ajay Kumar Yadav (Central University of Karnataka)

Saturday 16 March

09:30 → 10:15 Talk 11: AJ (TBD)

Speaker: Anjan Giri

10:15 → 11:00 Talk 12: SR (TBD)

Speaker: Barilang Mawlong (University of Hyderabad)

11:00 → 11:45 Talk 14: Review of muon g-2 measurements

Speaker: Deepak Samuel (Central University of Karnataka)

11:45 → 12:05 Tea

12:05 → 12:50 Talk 13: From quarks to QCD - Gellman's contributions (Online)

Speaker: Dr Karthik Suresh (College of William and Mary)

12:50 → 13:35 Talk : NS (Online)

Speaker: Narendra Sahu (IIT Hyderabad)

13:35 → 14:35 Lunch