Követés
Barbara ©oda
Barbara ©oda
Perimeter Institute for Theoretical Physics
E-mail megerősítve itt: perimeterinstitute.ca
Cím
Hivatkozott rá
Hivatkozott rá
Év
Gravitationally induced decoherence vs space-time diffusion: testing the quantum nature of gravity
J Oppenheim, C Sparaciari, B ©oda, Z Weller-Davies
Nature Communications 14 (1), 7910, 2023
322023
Acceleration-induced effects in stimulated light-matter interactions
B ©oda, V Sudhir, A Kempf
Physical Review Letters 128 (16), 163603, 2022
242022
Objective trajectories in hybrid classical-quantum dynamics
J Oppenheim, C Sparaciari, B ©oda, Z Weller-Davies
Quantum 7, 891, 2023
192023
The two classes of hybrid classical-quantum dynamics
J Oppenheim, C Sparaciari, B ©oda, Z Weller-Davies
arXiv preprint arXiv:2203.01332, 2022
132022
Efficient method to create superoscillations with generic target behavior
B ©oda, A Kempf
Quantum Studies: Mathematics and Foundations 7 (3), 347-353, 2020
112020
Transmission of coherent information at the onset of interactions
E Kendall, B ©oda, A Kempf
Journal of Physics A: Mathematical and Theoretical 55 (25), 255301, 2022
32022
Super interferometric range resolution
JC Howell, AN Jordan, B ©oda, A Kempf
Physical Review Letters 131 (5), 053803, 2023
22023
Model for Emergence of Spacetime from Fluctuations
M Reitz, B ©oda, A Kempf
Physical Review Letters 131 (21), 2023
12023
Newton cradle spectra
B ©oda, A Kempf
arXiv preprint arXiv:2206.09927, 2022
12022
New Aspects of Quantum Interactions: Acceleration-Induced Transparency, Newton’s Cradle Spectra, Superoscillations
B ©oda
University of Waterloo, 2023
2023
Gravity and Entropy
B ©oda
2016
Gravitacija i entropija
B ©oda
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