Biblio
Improved Noninterferometric Test of Collapse Models Using Ultracold Cantilevers." Physical Review Letters. 119.11 (2017).
"Quantum-limited estimation of continuous spontaneous localization." Physical Review A. 95.1 (2017).
"Stochastic unraveling of positive quantum dynamics." Physical Review A. 95206362.6 (2017).
"Approximations for the free evolution of self-gravitating quantum particles." Phys. Rev. A. 94 (2016): 022101.
"Bohmian mechanics, collapse models and the emergence of classicality." Journal of Physics A: Mathematical and Theoretical. 49.35 (2016): 355302.
"Bounds on collapse models from cold-atom experiments." Physica A: Statistical Mechanics and its Applications. 462 (2016): 764-782.
"Decoherence due to gravitational time dilation: Analysis of competing decoherence effects." Physics Letters A. 380.31-32 (2016): 2354-2358.
"Effects of Newtonian gravitational self-interaction in harmonically trapped quantum systems." Scientific Reports. 6 (2016): 30840.
"Entangling macroscopic diamonds at room temperature: Bounds on the continuous-spontaneous-localization parameters." Physical Review A. 94.1 (2016).
"Experimental bounds on collapse models from gravitational wave detectors." Physical Review D. 94.12 (2016).
"Gravitational decoherence for mesoscopic systems." Physics Letters A. 380.3 (2016): 390-393.
"Macroscopic Quantum Resonators (MAQRO): 2015 update." EPJ Quantum Technology. 3.1 (2016).
"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.
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