Abstract. This Thesis presents my personal contributions to two distinct fields, namely the recent experimental anomalies in B-meson decays, and the longstanding quest for a theoretical explanation of lepton masses and mixings, under a unifying umbrella: Flavour Physics. The modern view of the Standard Model as an effective theory is motivated, and the dual role of flavour, as a probe of New Physics effects on one side, and as a piece of the puzzle itself on the other, is emphasized. By jointly discussing two physics cases of different nature, I attempt to offer a broader perspective on the current status of Beyond Standard Model searches.
Abstract. The discussion begins with a preliminary review of Standard Model Effective Field Theories, in which some utility results in theory matching are presented. The focus then moves to B-meson decay anomalies: after introducing Lepton Flavour Universality, we discuss the phenomenology of a specific Standard Model extension by scalar leptoquarks, and also present the Effective Field Theory framework of Rank-One Flavor Violation, providing a less detailed but broader picture for the case of neutral-current anomalies. Finally, we tackle the Standard Model flavour puzzle, describing an attempt to address charged lepton mass hierarchies in the framework of supersymmetric modular invariant models of lepton flavour.