NOTE DIFFERENT ROOM
Accurately determining the top quark mass is crucial for understanding the phenomenology of the Standard Model, yet precision measurements at the LHC remain challenging. This seminar will present a novel method using energy correlators to extract the top quark mass with high precision, leveraging the W-boson as a standard candle. This approach provides a mass measurement in a well-defined scheme, expressed in terms of the W-boson mass. Extensive simulations demonstrate the method's resilience to experimental uncertainties and highlight that a precise theoretical description is achievable. These studies show the potential to achieve ~100 MeV accuracy, offering a robust path for precise top quark mass measurements in future LHC runs. To further develop a detailed theoretical understanding this measurement, I will also discuss preliminary results on high-accuracy computations of energy correlators measured on boosted Z-boson jets. This analysis illustrates the theoretical steps toward achieving high-precision predictions for top quark mass measurements.