Thesis
D.W. Snoke, “A model of spontaneous collapse with energy conservation,” Foundations of Physics 51, 100 (2021).
D.W. Snoke, “Mathematical formalism for nonlocal spontaneous collapse in quantum field theory,” Founda- tions of Physics 53, 34 (2023).
D.W. Snoke and D. Maienshein, “Experimental predictions for norm-conserving spontaneous collapse,” En- tropy 25, 1489 (2023).
T.-S. P. Van, A.N. Jordan, and D.W. Snoke, “Measurement time of weak measurements on large entangled systems,” Physical Review A, 111, 032217 (2025).
T.-S. P. Van, D. Maienshein, and D.W. Snoke, Quantum telegraph behavior as a result of continuous weak measurement,” arXiv:2508.20837.
D. Snoke and J. Keeling, “The new era of polariton condensates,” Physics Today 70, 54 (October 2017). (feature article)
D.W. Snoke, “Spontaneous appearance of life and the second law of thermodynamics,” Biocosmos 2, 1 (2022).
D.W. Snoke, “How does anyone change belief about anything?” Scientia et Fides 11, 79 (2023).
D.W. Snoke, “The crucial role of thermodynamic gates in living systems,” Biocosmos 4, 42 (2024).
Books
1. Universal themes of Bose-Einstein condensation, Nick P Proukakis, David W Snoke, Peter B Littlewood, Cambridge University Press
2. Electronics: A Physical Approach, David Snoke, Pearson
3. Solid State Physics: Essential Concepts (2nd Editon), David Snoke, Cambridge University Press
4. Bose-Einstein condensation of excitons and biexcitons: and coherent nonlinear optics with excitons, S.A. Moskaienko, David Snoke, Cambridge University Press
5. Bose-einstein condensation
A Griffin, DW Snoke, S Stringari, Cambridge University Press
