Testing Gravity 2023 Vancouver

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

Bohmian-Trajectory-Gravity-a-Better-Semiclassical-GravityDownload

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: