SubsidieMeestersExotic High Energy Phenomenology
This project aims to explore novel physics beyond the Standard Model by developing innovative methodologies to uncover new phenomenology at the energy frontier.
Projectdetails
Introduction
The Standard Model (SM) of particle physics is a very elegant theory that has led to a long list of impressive achievements, one of the latest being the discovery of the Higgs particle. Nowadays, the researchers of the phenomenology at the highest energy frontier face the unknown, and one of the biggest questions in the field is: what physics lies beyond the SM? Progress in answering this question will require the combined efforts of a large number of experimental and theoretical physicists.
Project Context
How does my project fit in this context? The research project that I present will uncover original models describing the laws of physics at the energy frontier; its ultimate goal is to answer: what novel phenomenology may lie beyond the SM? My plan is to attack this question through a constructive approach and to establish an atlas characterizing all the allowed extensions of the SM.
Methodologies
In order to achieve this, I will develop a variety of new tools and approaches based on:
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Scattering S-matrix bootstrap and positivity constraints: This will permit a rigorous exploration of the space of high energy theories and the discovery of new exotic effective field theories.
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On-shell effective field theory: This will allow us to:
- Achieve an unprecedented precision in the determination of observables (key for the interpretation of data from upcoming generations of collider experiments).
- Uncover new hidden structures of the SM.
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Hamiltonian Truncation method: This will be a universal tool for computing quantum field theory observables beyond perturbation theory, providing a window into new strongly-coupled phenomena.
Conclusion
Based on my experience and equipped with these new methodologies, my team and I will be able to penetrate uncharted territory and discover novel phenomenology at the energy frontier, something which is hardly possible with more conventional methods. The approach I propose will be crucial to meet the upcoming challenges in the high energy frontier.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 1.351.125 |
| Totale projectbegroting | € 1.351.125 |
Tijdlijn
| Startdatum | 1-10-2022 |
| Einddatum | 30-9-2027 |
| Subsidiejaar | 2022 |
Partners & Locaties
Projectpartners
- UNITED NATIONS EDUCATIONAL SCIENTIFIC AND CULTURAL ORGANIZATIONpenvoerder
Land(en)
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This project aims to enhance the precision of the weak mixing angle in the Standard Model by integrating LHC and MESA data, potentially revealing new physics across a vast energy range.
INnovative TRiggEr techniques for beyond the standard model PhysIcs Discovery at the LHC
This project aims to enhance trigger systems at the LHC using advanced Machine Learning to identify long-lived particles, potentially revealing evidence of beyond the standard model physics.
Comprehensive search for new phenomena in the dilepton spectrum at the LHC
The DITTO project aims to achieve precise measurements of high mass Drell-Yan processes to explore new physics beyond the Standard Model using advanced techniques at the LHC.
Challenging the Standard Model with suppressed b to d l+l- decays
The project aims to investigate rare b to dll decays to uncover new physics and matter-antimatter asymmetries, utilizing advanced analysis tools from the LHCb experiment.
Opening new frontiers in multi-scale evolution of collider events: a dual pathway to precision
The JANUS project aims to enhance theoretical methods for accurately modeling multi-scale particle interactions at colliders, improving predictions for Higgs and jet physics.