Underground Tests of Quantum Mechanics by the VIP Collaboration at Gran Sasso

Napolitano, F.; Addazi, Andrea; Bassi, Angelo; Bragadireanu, M.; Cargnelli, M.; Clozza, A.; Paolis, L. De; Grande, R. Del; Derakhshani, Maaneli; Donadi, Sandro; Fiorini, C.; Guaraldo, C.; Iliescu, M.; Laubenstein, M.; Manti, Simone; Marcianò, Antonino; Márton, J.; Miliucci, M.; Milotti, E.; Piscicchia, K.; Porcelli, A.; Scordo, A.; Sgaramella, Francesco; Sirghi, D.; Sirghi, F.; Doce, O. Vázquez; Zmeskal, J.; Curceanu, C.

doi:10.3390/sym15020480

Cited by 4 publications

(5 citation statements)

References 36 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These include the merging of black holes or neutron stars, supernovae, or even the rapid acceleration of massive objects. Gravitational waves carry information about their origins and about the nature of gravity itself, offering an unprecedented new way to observe and understand the universe [7].…”

Section: Gravitational Wavesmentioning

confidence: 99%

Beyond particles and planets: Exploring the universe through quantum mechanics, general relativity, and string theory

Wang

2024

TNS

View full text Add to dashboard Cite

This paper provides a comprehensive overview of the fundamental principles and implications of quantum mechanics, general relativity, and string theory, focusing on their role in shaping our understanding of the universe. We delve into quantum mechanics through wave-particle duality, quantum entanglement, and the measurement problem, highlighting the probabilistic nature of reality and the challenges of observer-dependent phenomena. In exploring general relativity, we examine the curvature of space-time, black holes, singularities, and gravitational waves, showcasing the theory's impact on our perception of gravity and the cosmos. String theory is discussed as a unifying framework, with emphasis on its basics, the necessity of extra dimensions, and the landscape of possible universes it predicts. This paper aims to bridge complex theoretical concepts with observational evidence and technological advancements, offering insights into the ongoing quest to understand the fabric of the universe

show abstract

Section: Gravitational Wavesmentioning

confidence: 99%

Beyond particles and planets: Exploring the universe through quantum mechanics, general relativity, and string theory

Wang

2024

TNS

View full text Add to dashboard Cite

show abstract

“…Many different proposals of modification of QM have been put forward in the last 50 years, ranging from the inclusion of nonlinear terms [4,5] or a random noise source [6,7,8,9,10] in Schroedinger equation, to the suggestion of a possible role of gravity in the collapse of the wave function [11,12,13,14,15,16,17,18]. Some of these models include free parameters as new constants of Nature, while some others have been recently falsified by accurate experiments [19]. In particular the so called Diosi-Penrose gravity induced collapse model, that has no free parameters, predicts a certain amount of energy non conservation via spontaneous emission of X-rays, a feature that has not been observed.…”

Section: Introductionmentioning

confidence: 99%

“…[36] and references therein). Finally, a novel underground experiment in operation at Gran Sasso National Laboratory [19] is very promising as well thanks to a reduced exposition to cosmic radiation.…”

Section: Introductionmentioning

confidence: 99%

Interaction between Everett worlds and fundamental decoherence in Non-unitary Newtonian Gravity

Maimone¹,

Naddeo²,

Scelza³

2023

Preprint

View full text Add to dashboard Cite

It is shown that Non-unitary Newtonian Gravity (NNG) model admits a simple interpretation in terms of Feynman path integral, in which the sum over all possible histories is replaced by a summation over pairs of paths. Correlations between different paths are allowed by a fundamental decoherence mechanism of gravitational origin and can be interpreted as a kind of communication between different branches of the wave function. The ensuing formulation could be used in turn as a motivation to introduce Non-unitary Gravity itself.

show abstract

“…Many different proposals of modification of QM have been put forward in the last 50 years, ranging from the inclusion of nonlinear terms [4,5] or a random noise source [6][7][8][9][10] in the Schrödinger equation, to the suggestion of a possible role of gravity in the collapse of the wave function [11][12][13][14][15][16][17][18]. Some of these models include free parameters as new constants of nature, while some others have been recently falsified by accurate experiments [19]. In particular, the so-called Diosi-Penrose gravity-induced collapse model, that has no free parameters, predicts a certain degree of energy non-conservation via spontaneous emission of X-rays, a feature that has not been observed.…”

Section: Introductionmentioning

confidence: 99%

“…[36] and references therein). Finally, a novel underground experiment in operation at the Italian Gran Sasso National Laboratory [19] is very promising as well, thanks to a reduced exposition to cosmic radiation.…”

Section: Introductionmentioning

confidence: 99%

Interaction between Everett Worlds and Fundamental Decoherence in Non-Unitary Newtonian Gravity

Maimone¹,

Naddeo

Scelza³

2023

Universe

View full text Add to dashboard Cite

It is shown that the non-unitary Newtonian gravity (NNG) model admits a simple interpretation in terms of the Feynman path integral, in which the sum over all possible histories is replaced by a summation over pairs of paths. Correlations between different paths are allowed by a fundamental decoherence mechanism of gravitational origin and can be interpreted as a kind of communication between different branches of the wave function. The ensuing formulation could be used in turn as a motivation to introduce non-unitary gravity itself.

show abstract

Underground Tests of Quantum Mechanics by the VIP Collaboration at Gran Sasso

Cited by 4 publications

References 36 publications

Beyond particles and planets: Exploring the universe through quantum mechanics, general relativity, and string theory

Beyond particles and planets: Exploring the universe through quantum mechanics, general relativity, and string theory

Interaction between Everett worlds and fundamental decoherence in Non-unitary Newtonian Gravity

Interaction between Everett Worlds and Fundamental Decoherence in Non-Unitary Newtonian Gravity

Contact Info

Product

Resources

About