Measurement of CP asymmetries in $\lambda^0_b \to pk^-$ and $\lambda^0_b \to p \pi^-$ decays at LHCb

The LHCb experiment has been designed to perform precision measurements in the flavour physics sector at the Large Hadron Collider (LHC) located at CERN. After the recent observation of CP violation in the decay of the Bs0 meson to a charged pion-kaon pair at LHCb, it is interesting to see whether the same quark-level transition in Λ0b baryon decays gives rise to large CP-violating effects. Such decay processes involve both tree and penguin Feynman diagrams and could be sensitive probes for physics beyond the Standard Model. The measurement of the CP-violating observable defined as ∆ACP = ACP(Λ0b → pK−)−ACP(Λ0b →pπ−),where ACP(Λ0b →pK−) and ACP(Λ0b →pπ−) are the direct CP asymmetries in Λ0b → pK− and Λ0b → pπ− decays, is presented for the first time using LHCb data. The procedure followed to optimize the event selection, to calibrate particle identification, to parametrise the various components of the invariant mass spectra, and to compute corrections due to the production asymmetry of the initial state and the detection asymmetries of the final states, is discussed in detail. Using the full 2011 and 2012 data sets of pp collisions collected with the LHCb detector, corresponding to an integrated luminosity of about 3 fb−1, the value ∆ACP = (0.8 ± 2.1 ± 0.2)% is obtained. The first uncertainty is statistical and the second corresponds to one of the dominant systematic effects. As the result is compatible with zero, no evidence of CP violation is found. This is the most precise measurement of CP violation in the decays of baryons containing the b quark to date. Once the analysis will be completed with an exhaustive study of systematic uncertainties, the results will be published by the LHCb Collaboration.

Study of the performances of the H->ZZ*->4l analysis with the CMS phase-II upgrade

The performances of the H → ZZ* → 4l analysis are studied in the context of the High Luminosity upgrade of the LHC collider, with the CMS detector. The high luminosity (up to L = 5 × 10^34 cm−2s−1) of the accelerator poses very challenging experimental con- ditions. In particular, the number of overlapping events per bunch crossing will increase to 140. To cope with this difficult environment, the CMS detector will be upgraded in two stages: Phase-I and Phase-II. The tools used in the analysis are the CMS Full Simulation and the fast parametrized Delphes simulation. A validation of Delphes with respect to the Full Simulation is performed, using reference Phase-I detector samples. Delphes is then used to simulate the Phase-II detector response. The Phase-II configuration is compared with the Phase-I detector and the same Phase-I detector affected by aging processes, both modeled with the Full Simulation framework. Conclusions on these three scenarios are derived: the degradation in performances observed with the “aged” scenario shows that a major upgrade of the detector is mandatory. The specific upgrade configuration studied allows to keep the same performances as in Phase-I and, in the case of the four-muons channel, even to exceed them.

Pirateria marittima: Analisi dei profili privatistici

Anche la clausola Institute International Hull Clause contiene la clausola Sue and Labor Clause secondo cui le spese che sono intercorse per cercare di minimizzare la perdita saranno coperte dall’assicuratore. Comunque anche se la Sue and Labor Clause non fosse presente in una polizza assicurativa, l’assicuratore potrebbe avere l’obbligo di rimborsare l’assicurato per le misure prese affinché si evitasse la perdita, come se gli garantisse un benefit. Per meglio comprendere le argomentazioni su esposte, conviene ricordare il caso giudiziario australiano Emperor Goldmining Co. Ltd. v. Switzerland General Ins. Co. Ltd., secondo cui sostanzialmente l’assenza di una clausola Sue and Labour dalla polizza non significa addossare sul ricorrente le spese.

Valutazione dell'accuratezza e della precisione di un algoritmo di correlazione digitale di volumi applicato a vertebre naturali e trattate

La Digital Volume Correlation (DVC) è una tecnica di misura a tutto campo, non invasiva, che permette di misurare spostamenti e deformazioni all’interno della struttura ossea in esame. Mediante la comparazione d’immagini con provino scarico e con provino carico, ottenute attraverso sistemi di tomografia computerizzata, si può ottenere la mappa degli spostamenti per ogni direzione e la mappa di deformazione per ogni componente di deformazione. L’obiettivo di questo lavoro di tesi è la validazione della DVC, attraverso la determinazione dell’errore sistematico (accuratezza) e dell’errore casuale (precisione), in modo da poter valutare il livello di affidabilità della strumentazione. La valutazione si effettua su provini di vertebre di maiale, aumentate e non, sia a livello d’organo, sia a livello di tessuto. The Digital Volume Correlation (DVC) is a full field and contact less measurement technique that allowed estimating displacement and strain inside bone specimen. Images of the unloaded and loaded specimen were obtained from micro-CT and compared in order to obtain the displacement map and, differentiating, the strain map. The aim of this work is the validation of the approach, estimating the lack of accuracy (systematic error) and the lack of precision (random error) on different kinds of porcine vertebra, augmented and not, analysing the specimen on tissue level and on organ level.