Quantum Theory Looks at Time Travel ∗ (2008)
Daniel M. Greenberger, Karl Svozil
We introduce a quantum mechanical model of time travel which includes two figurative beam splitters in order to induce feedback to earlier times. This leads to a unique solution to the paradox where...
Planck, Photon Statistics, and Bose-Einstein Condensation (2007)
Greenberger, Daniel M., Erez, Noam, Scully, Marlan O., Svidzinsky, Anatoly A., Zubairy, M. Suhail
The interplay between optical and statistical physics is a rich and exciting field of study. Black body radiation was the first application of photon statistics, although it was initially treated as...
Going Beyond Bell's Theorem (2007)
Greenberger, Daniel M., Horne, Michael A., Zeilinger, Anton
Bell's Theorem proved that one cannot in general reproduce the results of quantum theory with a classical, deterministic local model. However, Einstein originally considered the case where one could...
A Bell Theorem Without Inequalities for Two Particles, Using Efficient Detectors (2005)
Greenberger, Daniel M., Horne, Michael, Zeilinger, Anton
We consider an entangled two-particle state that is produced from two independent down-conversion sources by the process of "entanglement-swapping", so that the particles have never met. We prove a...
Quantum Theory Looks at Time Travel (2005)
Greenberger, Daniel M., Svozil, Karl
We introduce a quantum mechanical model of time travel which includes two figurative beam splitters in order to induce feedback to earlier times. This leads to a unique solution to the paradox where...
Quantum Theory Looks at Time Travel (2005)
Daniel M. Greenberger, Karl Svozil, Daniel M. Greenberger, Karl Svozil
We introduce a quantum mechanical model of time travel which includes two figurative beam splitters in order to induce feedback to earlier times. This leads to a unique solution to the paradox where...
A canonical formulation of circuit theory /--by Daniel M. Greenberger. (1954)
Thesis (B.S.) Massachusetts Institute of Technology. Dept. of Physics, 1954.