The Q-Ontic Lab investigates quantum systems through ontological precision, offering clarity where conventional treatments often obscure. While grounded in foundational inquiry—such as wave–particle duality and tunneling—the Lab is designed for anyone studying quantum mechanics, including those focused on practical understanding rather than interpretation. Using the de Broglie–Bohm theory as a guiding framework, it demonstrates how a coherent ontology can resolve paradoxes, illuminate quantum behavior, and potentially inform future technological development.
Two-Slit Experiment (Interactive Demo)
Explore Bohmian trajectories in real time. This prototype shows how particles can exhibit interference guided by the standard quantum wave-function.
Launch DemoMore Simulations to be Developed
- Entanglement and Bell’s theorem
- Quantum tunneling
- Measurement and decoherence
- The Hydrogen Atom
- Simple Molecules (e.g., H₂, LiH, BeH₂)
- Scattering and non-asymptotic dynamics
- Spin-field interactions (Stern–Gerlach)
- Quantum potential landscapes
Bohr and Einstein on the Moon
A cartoon that dramatizes one of the most famous interpretive tensions in quantum theory: Niels Bohr’s insistence on observer-dependent reality versus Albert Einstein’s realist intuition. It can be used in outreach and teaching to invite reflection on what quantum theory says about existence, observation, and the nature of reality itself
View Cartoon