Biblio

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2022
Wu, Qiongyuan, et al. "Nonequilibrium Quantum Thermodynamics of a Particle Trapped in a Controllable Time-Varying Potential." PRX Quantum. 3.1 (2022).
Carlesso, Matteo, et al. "Present status and future challenges of non-interferometric tests of collapse models." Nature Physics. 18 (2022).
Belenchia, Alessio, et al. "Quantum physics in space." Physics Reports. 951 (2022).
2021
Adler, Stephen L., Angelo Bassi, and Matteo Carlesso. "The continuous spontaneous localization layering effect from a lattice perspective." Journal of Physics A: Mathematical and Theoretical. 54.8 (2021).PDF icon 1907.11598.pdf (126.15 KB)
Rijavec, Simone, et al. "Decoherence effects in non-classicality tests of gravity." New Journal of Physics. 23.4 (2021).PDF icon 2012.06230.pdf (1.12 MB)
Di Bartolomeo, Giovanni, Matteo Carlesso, and Angelo Bassi. "Gravity as a classical channel and its dissipative generalization." Physical Review D. 104.10 (2021).
Carlesso, Matteo, Hamid Reza Naeij, and Angelo Bassi. "Perturbative algorithm for rotational decoherence." Physical Review A. 103.3 (2021).PDF icon 1912.08159.pdf (785.26 KB)
Belenchia, Alessio, et al. "Test quantum mechanics in space — invest US$1 billion." Nature. 596.7870 (2021).PDF icon d41586-021-02091-8.pdf (410.78 KB)
Gasbarri, Giulio, et al. "Testing the foundation of quantum physics in space via Interferometric and non-interferometric experiments with mesoscopic nanoparticlesAbstract." Communications Physics. 4.1 (2021).PDF icon 2106.05349.pdf (16.8 MB)
Gasbarri, G., et al. Testing the foundations of quantum physics in space Interferometric and non-interferometric tests with Large Particles., 2021.PDF icon 2106.05349.pdf (16.8 MB)
2020
Vinante, A., et al. Challenging spontaneous collapse models with ultracold layered force sensors., 2020.PDF icon 2002.09782.pdf (2.4 MB)
Gaona-Reyes, J.L., M. Carlesso, and A. Bassi Gravitational interaction through a feedback mechanism., 2020.PDF icon 2007.11980.pdf (666.42 KB)
Zheng, Di, et al. "Room temperature test of the continuous spontaneous localization model using a levitated micro-oscillator." Physical Review Research. 2.1 (2020).PDF icon PhysRevResearch.2.013057.pdf (2.16 MB)
2019
Adler, Stephen L., et al. "Testing continuous spontaneous localization with Fermi liquids." Physical Review D. 99.10 (2019).PDF icon 1901.10963.pdf (479.69 KB)
2018
Carlesso, M., L. Ferialdi, and Angelo Bassi. "Colored collapse models from the non-interferometric perspective." The European Physical Journal D. 72.9 (2018).PDF icon d180248.pdf (805.06 KB)
Carlesso, M., L. Ferialdi, and Angelo Bassi Colored collapse models from the non-interferometric perspective., 2018.
Carlesso, M., Andrea Vinante, and Angelo Bassi. "Multilayer test masses to enhance the collapse noise." Physical Review A. 98.2 (2018).PDF icon 1805.11037.pdf (1.49 MB)
Carlesso, M., Andrea Vinante, and Angelo Bassi Multilayer test masses to enhance the collapse noise., 2018.
Carlesso, M., et al. "Non-interferometric test of the continuous spontaneous localization model based on rotational optomechanics." New Journal of Physics. 20.8 (2018): 083022.PDF icon New Journal of Physics 20 083022 (2018) (913.77 KB)
Nobakht, J., et al. "Unitary unraveling for the dissipative continuous spontaneous localization model: Application to optomechanical experiments." Physical Review A. 98 (2018): 042109.PDF icon 1808.01143.pdf (711.39 KB)
Nobakht, J., et al. Unitary unraveling for the dissipative continuous spontaneous localization model: Application to optomechanical experiments., 2018.