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A Novel Approach to Parameter Determination of the Continuous Spontaneous Localization Collapse Model.

Kristian PiscicchiaAlessio PorcelliAngelo BassiMassimiliano BazziMario BragadireanuMichael CargnelliAlberto ClozzaLuca De PaolisRaffaele Del GrandeMaaneli DerakhshaniDiósi LajosSandro DonadiCarlo GuaraldoMihail IliescuMatthias LaubensteinSimone MantiJohann MartonMarco MiliucciFabrizio NapolitanoAlessandro ScordoFrancesco SgaramellaDiana Laura SirghiFlorin SirghiOton Vazquez DoceJohann ZmeskalCatalina Curceanu
Published in: Entropy (Basel, Switzerland) (2023)
Models of dynamical wave function collapse consistently describe the breakdown of the quantum superposition with the growing mass of the system by introducing non-linear and stochastic modifications to the standard Schrödinger dynamics. Among them, Continuous Spontaneous Localization (CSL) was extensively investigated both theoretically and experimentally. Measurable consequences of the collapse phenomenon depend on different combinations of the phenomenological parameters of the model-the strength λ and the correlation length rC-and have led, so far, to the exclusion of regions of the admissible (λ-rC) parameters space. We developed a novel approach to disentangle the λ and rC probability density functions, which discloses a more profound statistical insight.
Keyphrases
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