The curriculum
Seventy-two lessons across the stack.
From mechanics to hardware
Start with superposition, interference, and measurement. End with qubits, sensors, cryptography, field theory, and interpretations.
Simulations first
Wave packets, Bloch spheres, circuits, tunneling, clocks, BB84, and Bell correlations are instruments for learning, not illustrations after the fact.
Plain without being thin
The language is direct, but the physics stays real. Equations appear when they clarify the behavior already observed.
Tracks
9 tracks, 72 lessons.
Foundations
The core mechanics of quantum behavior: superposition, measurement, interference, uncertainty, tunneling, and bound states.
Atomic & Molecular Physics
Spin, orbitals, exclusion, bonding, spectra, and the coherent light that makes lasers possible.
Quantum Information
Qubits, gates, entanglement, teleportation, no-cloning, and the language of noisy quantum states.
Quantum Computing
Quantum circuits, universal gates, speedups, QFT, Shor, Grover, NISQ algorithms, and error correction.
Quantum Hardware
Superconducting circuits, trapped ions, photonics, neutral atoms, spin qubits, decoherence, and cryogenics.
Quantum Sensing
Atomic clocks, NV centers, gravity sensing, interferometry, LIGO, and imaging with quantum correlations.
Quantum Cryptography
The threat from quantum computers, quantum key distribution, Bell-state security, post-quantum algorithms, randomness, and quantum networks.
QFT & Beyond
Vacuum activity, QED, Feynman diagrams, path integrals, and the Standard Model as a quantum field theory.
Foundations & Philosophy
Measurement, interpretation, many worlds, Copenhagen, pilot waves, and QBism without turning mystery into fog.