The state of a quantum system, adiabatically driven in a cycle, may acquire a measurable phase depending only on the closed trajectory in parameter space. Such geometric phases are ubiquitous, and also underline the physics of robust topological effects such as the quantized Hall conductance. Equivalently, a geometric phase may be induced through a cyclic sequence of quantum measurements. We show that the application of a sequence of weak measurements renders the closed trajectories, hence the geometric phase, stochastic. We study the concomitant probability distribution and show that, when tuning the measurement strength, the mapping between the measurement sequence and the geometric phase undergoes a topological transition. Our finding has the potential to impact the study of measurement-induced state distillation, trajectory manipulation, and active error correction-all crucial ingredients for quantum information processing.
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