Biblio
Upper Bounds on Spontaneous Wave-Function Collapse Models Using Millikelvin-Cooled Nanocantilevers." Physical Review Letters. 116.9 (2016).
"Is Gravity Quantum?" (2015).
"Proposing new experiments to test the quantum-to-classical transition." Journal of Physics: Conference Series. 626 (2015): 012006.
"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." Physical Review A. 90.6 (2014).
"Role of gravity in the collapse of a wave function: A probe into the Diósi-Penrose model." Phys. Rev. A. 90 (2014): 062105.
"The Schrödinger–Newton equation and its foundations." New Journal of Physics. 16.11 (2014): 115007.
"Testing the quantum superposition principle in the frequency domain." Physical Review A. 89.3 (2014).
"Are collapse models testable with quantum oscillating systems? The case of neutrinos, kaons, chiral molecules." Scientific Reports. 3 (2013).
"Decoherence effects on superpositions of chiral states in a chiral molecule." Physical Chemistry Chemical Physics. 14.25 (2012): 9214.
"Tunneling properties of nonplanar molecules in a gas medium." Phys. Rev. A. 84 (2011): 062115.
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