Your search keyword '"Guaraldo, Carlo"' showing total 6 results

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

Author

Piscicchia, Kristian, Porcelli, Alessio, Bassi, Angelo, Bazzi, Massimiliano, Bragadireanu, Mario, Cargnelli, Michael, Clozza, Alberto, De Paolis, Luca, Del Grande, Raffaele, Derakhshani, Maaneli, Lajos, Diósi, Donadi, Sandro, Guaraldo, Carlo, Iliescu, Mihai, Laubenstein, Matthias, Manti, Simone, Marton, Johann, Miliucci, Marco, Napolitano, Fabrizio, and Scordo, Alessandro

Subjects

PROBABILITY density function, QUANTUM superposition, LOCALIZATION (Mathematics), GERMANIUM detectors, WAVE functions

Abstract

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 r C —and have led, so far, to the exclusion of regions of the admissible ( λ − r C ) parameters space. We developed a novel approach to disentangle the λ and r C probability density functions, which discloses a more profound statistical insight. [ABSTRACT FROM AUTHOR]

Published

2023

2. Quantum mechanics under X-rays in the Gran Sasso underground laboratory.

Author

Curceanu, Catalina, Sirghi, Diana, Sirghi, Florin, Bartalucci, Sergio, Bazzi, Massimiliano, Clozza, Alberto, De Paolis, Luca, Guaraldo, Carlo, Iliescu, Mihai, Miliucci, Marco, Pietreanu, Dorel, Scordo, Alessandro, Shi, Hexi, Sperandio, Laura, Bassi, Angelo, Donadi, Sandro, Milotti, Edoardo, Bertolucci, Sergio, Bragadireanu, Mario, and Cargnelli, Michael

Subjects

QUANTUM mechanics, BAYESIAN analysis, PARAMETER estimation, ELECTRON spin states, NUCLEAR counters

Abstract

By performing X-ray measurements in the 'cosmic silence' of the underground laboratory of Gran Sasso, LNGS-INFN, we test a basic principle of quantum mechanics: the Pauli Exclusion Principle (PEP) for electrons. We present the achieved results of the VIP experiment and the ongoing VIP2 measurement aiming to gain two orders of magnitude improvement in testing PEP. X-ray emission can also be used to put strong constraints on the parameters of the Continuous Spontaneous Localization Model, which was introduced as a possible solution to the measurement problem in Quantum Mechanics. A Bayesian analysis of the data collected by IGEX will be presented, which allows to exclude a broad region of the parameter space which characterizes this model. [ABSTRACT FROM AUTHOR]

Published

2017

3. The X-ray machine for the examination of quantum mechanics.

Author

Curceanu, Catalina, Bartalucci, Sergio, Bassi, Angelo, Bazzi, Massimiliano, Bertolucci, Sergio, Berucci, Carolina, Bragadireanu, Alexandru Mario, Cargnelli, Michael, Clozza, Alberto, De Paolis, Luca, Di Matteo, Sergio, Donadi, Sandro, D'uffizi, Alessandro, Egger, Jean-Pierre, Guaraldo, Carlo, Iliescu, Mihail, Laubenstein, Matthias, Marton, Johann, Milotti, Edoardo, and Pichler, Andreas

Subjects

QUANTUM mechanics, PAULI exclusion principle, WAVE functions, LOCALIZATION (Mathematics), X-rays

Abstract

By performing X-rays measurements in the underground laboratory of Gran Sasso, LNGS-INFN, we test a basic principle of quantum mechanics: the Pauli exclusion principle (PEP). In the future, we aim to use a similar experimental technique to search for X-rays as a signature of the spontaneous collapse of the wave function predicted by continuous spontaneous localization theories. We present the achieved results of the VIP experiment and the future plans to gain two orders of magnitude in testing PEP with the recently VIP2 setup installed at Gran Sasso. [ABSTRACT FROM AUTHOR]

Published

2016

4. Hunting the "impossible atoms" Pauli exclusion principle violation and spontaneous collapse of the wave function at test.

Author

Curceanu, Catalina, Bartalucci, Sergio, Bassi, Angelo, Bertolucci, Sergio, Berucci, Carolina, Bragadireanu, Alexandru Mario, Cargnelli, Michael, Clozza, Alberto, Di Matteo, Sergio, Donadi, S., D'uffizi, Alessandro, Egger, J.-P., Guaraldo, Carlo, Iliescu, Mihail, Ishiwatari, Tomoichi, Laubenstein, Matthias, Marton, Johann, Milotti, Edoardo, Pietreanu, Dorel, and Piscicchia, Kristian

Subjects

PAULI exclusion principle, WAVE functions, QUANTUM mechanics, PROBABILITY theory, ELECTRONS, X-rays

Abstract

The Pauli exclusion principle (PEP) and, more generally, the spin-statistics connection, are at the very basis of our understanding of matter, life and Universe. The PEP spurs, presently, a lively debate on its possible limits, deeply rooted in the very foundations of Quantum Mechanics. It is, therefore, extremely important to test the limits of its validity. The Violation of the PEP (VIP) experiment established the best limit on the probability that PEP is violated by electrons, using the method of searching for PEP forbidden atomic transitions in copper. We describe the experimental method, the obtained results, and plans to go beyond the actual limit by upgrading the experimental apparatus. We discuss the possibility of using a similar experimental technique to search for X-rays as a signature of the spontaneous collapse of the wave function predicted by continuous spontaneous localization (CSL) theories. [ABSTRACT FROM AUTHOR]

Published

2014

5. The X-ray machine for the examination of quantum mechanics

Author

C. Guaraldo, Johann Marton, Sandro Donadi, A. Pichler, Matthias Laubenstein, Michael Cargnelli, Florin Sirghi, Carolina Berucci, M. Iliescu, Sergio Di Matteo, Alberto Clozza, Catalina Curceanu, Dorel Pietreanu, A. d'Uffizi, Oton Vazquez Doce, Sergio Bertolucci, Jean Pierre Egger, Kristian Piscicchia, Alessandro Scordo, Massimiliano Bazzi, T. Ponta, A. M. Bragadireanu, Luca De Paolis, Hexi Shi, Sergio Bartalucci, Johann Zmeskal, Diana Sirghi, Edoardo Milotti, Laura Sperandio, Angelo Bassi, Laboratori Nazionali di Frascati (LNF), Istituto Nazionale di Fisica Nucleare (INFN), Horia Hulubei National Institute of Physics and Nuclear Engineering (NIPNE), IFIN-HH, Enrico Fermi Center for Study and Research | Museo Storico della Fisica e Centro Studi e Ricerche Enrico Fermi, Dipartimento di Fisica [Trieste], Università degli studi di Trieste = University of Trieste, Stefan Meyer Institut für subatomare Physik (SMI), Institut de Physique de Rennes (IPR), Université de Rennes (UR)-Centre National de la Recherche Scientifique (CNRS), Université de Neuchâtel (UNINE), Laboratori Nazionali del Gran Sasso (LNGS), National Institut for Nuclear Physics and Engineering (IFIN HH), National Institut for Nuclear Physics and Engineering, Centro Studi e Ricerche 'Enrico Fermi' (Centro Fermi), Centro Studi e Ricerche e Museo Storico Della Fisica, Università degli studi di Trieste, Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Centre National de la Recherche Scientifique (CNRS), Curceanu, Catalina, Bartalucci, Sergio, Bassi, Angelo, Bazzi, Massimiliano, Bertolucci, Sergio, Berucci, Carolina, Bragadireanu, Alexandru Mario, Cargnelli, Michael, Clozza, Alberto, De Paolis, Luca, Di Matteo, Sergio, Donadi, Sandro, D'Uffizi, Alessandro, Egger, Jean Pierre, Guaraldo, Carlo, Iliescu, Mihail, Laubenstein, Matthia, Marton, Johann, Milotti, Edoardo, Pichler, Andrea, Pietreanu, Dorel, Piscicchia, Kristian, Ponta, Titu, Scordo, Alessandro, Shi, Hexi, Sirghi, Diana, Sirghi, Florin, Sperandio, Laura, Doce, Oton Vazquez, and Zmeskal, Johann

Subjects

[PHYS]Physics [physics], Physics, Physics and Astronomy (miscellaneous), Spin-statistic, 010308 nuclear & particles physics, collapse models, 01 natural sciences, Signature (logic), X-ray, Spin-statistics, X-rays, symbols.namesake, Pauli exclusion principle, Quantum mechanics, 0103 physical sciences, symbols, Underground laboratory, collapse model, 010306 general physics, Wave function collapse, Order of magnitude

Abstract

International audience; By performing X-rays measurements in the underground laboratory of Gran Sasso, LNGS-INFN, we test a basic principle of quantum mechanics: the Pauli exclusion principle (PEP). In the future, we aim to use a similar experimental technique to search for X-rays as a signature of the spontaneous collapse of the wave function predicted by continuous spontaneous localization theories. We present the achieved results of the VIP experiment and the future plans to gain two orders of magnitude in testing PEP with the recently VIP2 setup installed at Gran Sasso. © 2016 World Scientific Publishing Company.

Published

2016

6. Hunting the 'impossible atoms' Pauli exclusion principle violation and spontaneous collapse of the wave function at test

Author

Hexi Shi, A. d'Uffizi, Johann Zmeskal, J.-P. Egger, Kristian Piscicchia, M. Iliescu, T. Ponta, Johann Marton, Angelo Bassi, T. Ishiwatari, C. Guaraldo, A. M. Bragadireanu, Oton Vazquez Doce, Alessandro Scordo, Diana Sirghi, Florin Sirghi, Sergio Bartalucci, Sandro Donadi, Matthias Laubenstein, Dorel Pietreanu, Carolina Berucci, Emanuele Sbardella, Alberto Clozza, Michael Cargnelli, Catalina Curceanu, Edoardo Milotti, Sergio Bertolucci, Laura Sperandio, Sergio Di Matteo, Curceanu, Catalina, Bartalucci, Sergio, Bassi, Angelo, Bertolucci, Sergio, Berucci, Carolina, Bragadireanu, Alexandru Mario, Cargnelli, Michael, Clozza, Alberto, Di Matteo, Sergio, Donadi, Sandro, D'Uffizi, Alessandro, Egger, J. P., Guaraldo, Carlo, Iliescu, Mihail, Ishiwatari, Tomoichi, Laubenstein, Matthia, Marton, Johann, Milotti, Edoardo, Pietreanu, Dorel, Piscicchia, Kristian, Ponta, Titu, Sbardella, Emanuele, Scordo, Alessandro, Shi, Hexi, Sirghi, Diana, Sirghi, Florin, Sperandio, Laura, Doce, Oton Vazquez, and Zmeskal, Johann

Subjects

Physics, Physics and Astronomy (miscellaneous), Basis (linear algebra), media_common.quotation_subject, collapse models, Electron, Universe, Spin-statistics, collapse models, X-rays, symbols.namesake, Pauli exclusion principle, Quantum mechanics, Atom, X-rays, symbols, Physics::Accelerator Physics, High Energy Physics::Experiment, Limit (mathematics), Experimental methods, Spin-statistics, Wave function collapse, media_common

Abstract

The Pauli exclusion principle (PEP) and, more generally, the spin-statistics connection, are at the very basis of our understanding of matter, life and Universe. The PEP spurs, presently, a lively debate on its possible limits, deeply rooted in the very foundations of Quantum Mechanics. It is, therefore, extremely important to test the limits of its validity. The Violation of the PEP (VIP) experiment established the best limit on the probability that PEP is violated by electrons, using the method of searching for PEP forbidden atomic transitions in copper. We describe the experimental method, the obtained results, and plans to go beyond the actual limit by upgrading the experimental apparatus. We discuss the possibility of using a similar experimental technique to search for X-rays as a signature of the spontaneous collapse of the wave function predicted by continuous spontaneous localization (CSL) theories.

Published

2014