Biblio
] "Models of spontaneous wave function collapse: what they are, and how they can be tested." Journal of Physics: Conference Series. 701 (2016): 012012.
"Optomechanical test of the Schrödinger-Newton equation." Physical Review D. 93.9 (2016).
"Spontaneously Emitted X-rays: An Experimental Signature of the Dynamical Reduction Models." Foundations of Physics. 46.3 (2016): 263-268.
"Upper Bounds on Spontaneous Wave-Function Collapse Models Using Millikelvin-Cooled Nanocantilevers." Physical Review Letters. 116.9 (2016).
"The X-ray machine for the examination of quantum mechanics." International Journal of Quantum Information. 14.04 (2016): 1640017.
"Beyond Quantum Mechanics? Hunting the `Impossible' Atoms --- Pauli Exclusion Principle Violation and Spontaneous Collapse of the Wave Function at Test." Acta Physica Polonica B. 46.1 (2015): 147.
"Coherent scattering in non relativistic quantum mechanics." European Journal of Physics. 36.5 (2015): 055038.
"Dissipative Continuous Spontaneous Localization (CSL) model." Scientific Reports. 5 (2015): 12518.
"The emission of electromagnetic radiation from a quantum system interacting with an external noise: a general result." Journal of Physics A: Mathematical and Theoretical. 48.3 (2015): 035305.
"Experimental search for the “impossible atoms” Pauli Exclusion Principle violation and spontaneous collapse of the wave function at test." Journal of Physics: Conference Series. 626 (2015): 012027.
The Frontiers Collection It From Bit or Bit From It? Information and the Foundations of Quantum Theory. Eds. Anthony Aguirre, Brendan Foster, and Zeeya Merali. Cham: Springer International Publishing, 2015.
"Is Gravity Quantum?" (2015).
"Gravity: Wanna be quantum." Nature Physics. 11.8 (2015): 626-627.
"No-faster-than-light-signaling implies linear evolution. A re-derivation." European Journal of Physics. 36.5 (2015): 055027.
"Proposing new experiments to test the quantum-to-classical transition." Journal of Physics: Conference Series. 626 (2015): 012006.
"Quantum explorations: from the waltz of the Pauli exclusion principle to the rock of the spontaneous collapse." Physica Scripta. 90.2 (2015): 028003.
"X rays on quantum mechanics: Pauli Exclusion Principle and collapse models at test." Journal of Physics: Conference Series. 631 (2015): 012068.
"Collapse models: from theoretical foundations to experimental verifications." Journal of Physics: Conference Series. 504 (2014): 012023.
"Dissipative extension of the Ghirardi-Rimini-Weber model." Physical Review A. 90.6 (2014).
Experimental Tests of Quantum Mechanics: Pauli Exclusion Principle and Spontaneous Collapse Models. Eds. Burra G. Sidharth, Marisa Michelini, and Lorenzo Santi. Vol. 145. Cham: Springer International Publishing, 2014.
"Hunting the "impossible atoms" Pauli exclusion principle violation and spontaneous collapse of the wave function at test." International Journal of Quantum Information. 12.07n08 (2014): 1560012.
"Proposal for a Noninterferometric Test of Collapse Models in Optomechanical Systems." Physical Review Letters. 112.21 (2014).
"Role of gravity in the collapse of a wave function: A probe into the Diósi-Penrose model." Phys. Rev. A. 90 (2014): 062105.
"Role of gravity in the collapse of a wave function: A probe into the Diósi-Penrose model." Physical Review A. 90.6 (2014).
"The Schrödinger–Newton equation and its foundations." New Journal of Physics. 16.11 (2014): 115007.
