Changes for page Xabier Cid Vidal
Last modified by Ricardo Julio Rodríguez Fernández on 2024/06/28 13:18
From version 8.1
edited by Ricardo Julio Rodríguez Fernández
on 2024/06/28 10:05
on 2024/06/28 10:05
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To version 11.1
edited by Ricardo Julio Rodríguez Fernández
on 2024/06/28 10:11
on 2024/06/28 10:11
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... ... @@ -9,7 +9,8 @@ 9 9 10 10 === Finding the best classifier to observe eta' -> mu mu at LHCb === 11 11 ==== Supervisor: Miguel Fernández Gómez ==== 12 -==== Summer Fellow: Pablo Moreno García 12 +==== Summer Fellow: Pablo Moreno García ==== 13 +==== Summer Fellow: Diego Asín de Alcalá 13 13 ==== 14 14 15 15 Decays of the pseudoscalar resonances eta and eta' could turn out to be an important factor in fine-tuning the theoretical predictions for g_mu -2, one of the larger discrepancies between the Standard Model of Particle Physics and experimental measurements. In particular, eta' -> mu mu has not been observed yet, and doing so could represent a landmark achievement for the field, as well as the experiment that does it. ... ... @@ -19,7 +19,8 @@ 19 19 20 20 21 21 === Optimizing hyperparameters in classifiers to observe eta' -> mu mu at LHCb === 22 -==== Supervisor: Miguel Fernández Gómez 23 +==== Supervisor: Miguel Fernández Gómez ==== 24 +==== Summer Fellow: Rosalía Soto Rey 23 23 ==== 24 24 25 25 The decays of the pseudoscalar resonances eta and eta' may play a crucial role in refining theoretical predictions for g_mu - 2, which is one of the significant discrepancies between the Standard Model of Particle Physics and experimental measurements. Notably, the decay eta' -> mu mu has not yet been observed. Achieving this observation would be a landmark accomplishment for the field and the experiment that accomplishes it. ... ... @@ -29,7 +29,8 @@ 29 29 30 30 31 31 === Neural networks for LLP discovery === 32 -==== Supervisor: Emilio Xosé Rodríguez Fernández 34 +==== Supervisor: Emilio Xosé Rodríguez Fernández ==== 35 +==== Summer Fellow: Alejandro Novo Cal 33 33 ==== 34 34 35 35 LLPs are an exciting avenue to discover new physics, but they are also known to be very challenging to detect, specifically in the context of hadronic colliders with large backgrounds. Detectors such as LHCb have been trying to find one of such particles, with no success so far.