Publications
Year of Publication: 2019
1 Testing continuous spontaneous localization with Fermi liquids." Physical Review D. 99.10 (2019). " |
2 Testing the gravitational field generated by a quantum superposition." New Journal of Physics (2019). " |
3 Collapse Models: Main Properties and the State of Art of the Experimental Tests. Vol. 23762. Springer Proceedings in Physics, 23762. Cham: Springer International Publishing, 2019. |
Year of Publication: 2018
4 Multilayer test masses to enhance the collapse noise." Physical Review A. 98B15.2 (2018). " |
5 Non-interferometric test of the continuous spontaneous localization model based on rotational optomechanics." New Journal of Physics. 20.8 (2018): 083022. " |
6 Colored collapse models from the non-interferometric perspective." The European Physical Journal D. 72.9 (2018). " |
7 Unitary unraveling for the dissipative continuous spontaneous localization model: Application to optomechanical experiments." Phys. Rev. A. 98 (2018): 042109. " |
Year of Publication: 2017
Year of Publication: 2016
Year of Publication: 2015
Year of Publication: 2014
45 Role of gravity in the collapse of a wave function: A probe into the Diósi-Penrose model." Physical Review A. 90.6 (2014). " |
46 Collapse models: from theoretical foundations to experimental verifications." Journal of Physics: Conference Series. 504 (2014): 012023. " |
47 Dissipative extension of the Ghirardi-Rimini-Weber model." Physical Review A. 90.6 (2014). " |
48 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. |
49 The Schrödinger–Newton equation and its foundations." New Journal of Physics. 16.11 (2014): 115007. " |
50 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. " |