Here are notes and references for my poster at the https://www.sfu.ca/physics/cosmology/TestingGravity2023/ conference.

## References:

1. Donoghue, J. F. Quantum General Relativity and Effective Field Theory. Preprint at https://doi.org/10.48550/arXiv.2211.09902 (2023).

2. Layton, I., Oppenheim, J. & Weller-Davies, Z. A healthier semi-classical dynamics. Preprint at https://doi.org/10.48550/arXiv.2208.11722 (2022).

3. Döner, M. K. & Großardt, A. Is Gravitational Entanglement Evidence for the Quantization of Spacetime? *Found Phys* **52**, 101 (2022).

4. Laloë, F. A model of quantum collapse induced by gravity. 1–10 (2019).

5. Andersen, T. C. Quantum statistics in Bohmian trajectory gravity. *Journal of Physics: Conference Series* **1275**, 012038 (2019).

6. Scully, S. Semiclassical Gravity: A Testable Theory of Quantum Gravity. in *Experimental Search for Quantum Gravity* (ed. Hossenfelder, S.) 69–76 (Springer International Publishing, 2018). doi:10.1007/978-3-319-64537-7_11.

7. Pinto-Neto, N. & Struyve, W. Bohmian quantum gravity and cosmology. *Preprint arXiv:* **1801.03353**, (2018).

8. Tumulka, R. Bohmian Mechanics. (2017) doi:10.1007/b99978_8.

9. STRUYVE, W. Towards a Novel Approach to Semi-Classical Gravity. *The Philosophy of Cosmology* **1**, 356–374 (2017).

10. Marletto, C. & Vedral, V. Gravitationally-induced entanglement between two massive particles is sufficient evidence of quantum effects in gravity. *Phys. Rev. Lett.* **119**, 240402 (2017).

11. Bose, S. *et al.* Spin Entanglement Witness for Quantum Gravity. *Phys. Rev. Lett.* **119**, 240401 (2017).

12. Sivaram, C. Thermal Gravitational Waves. *arXiv:0708.3343* (2007) doi:10.2174/1874381101004010065.

13. Brown, H. R., Dewdney, C. & Horton, G. Bohm particles and their detection in the light of neutron interferometry. *Foundations of Physics* **25**, 329–347 (1995).

14. Ford, L. H. Gravitational radiation by quantum systems. *Annals of Physics* **144**, 238–248 (1982).

15. Colella, R., Overhauser, A. W. & Werner, S. A. Observation of Gravitationally Induced Quantum Interference. *Phys. Rev. Lett.* **34**, 1472–1474 (1975).

16. Weinberg, S. *Gravitation and cosmology : principles and applications of the general theory of relativity*. (Wiley, 1972).

Other links:

longitudinal gravitational waves: PDF

Images from https://wikipedia.com – all creative commons.

Quantum States in Bohmian Trajectory Gravity in the BMV experiment: