Biblio
] "Colored collapse models from the non-interferometric perspective." The European Physical Journal D. 72.9 (2018).
"Multilayer test masses to enhance the collapse noise." Physical Review A. 98B15.2 (2018).
"Non-interferometric test of the continuous spontaneous localization model based on rotational optomechanics." New Journal of Physics. 20.8 (2018): 083022.
"Unitary unraveling for the dissipative continuous spontaneous localization model: Application to optomechanical experiments." Phys. Rev. A. 98 (2018): 042109.
"Testing continuous spontaneous localization with Fermi liquids." Physical Review D. 99.10 (2019).
"Testing the gravitational field generated by a quantum superposition." New Journal of Physics (2019).
"Room temperature test of the continuous spontaneous localization model using a levitated micro-oscillator." Physical Review Research. 2.1 (2020).
"Underground test of gravity-related wave function collapse." Nature Physics (2020).
"The continuous spontaneous localization layering effect from a lattice perspective." Journal of Physics A: Mathematical and Theoretical. 54.8 (2021).
"Decoherence effects in non-classicality tests of gravity." New Journal of Physics. 23.4 (2021): 043040.
"Perturbative algorithm for rotational decoherence." Physical Review A. 103.3 (2021).
"Present status and future challenges of non-interferometric tests of collapse models." Nature Physics (2022).
