Quantum State
A quantum state can be represented by a statevector for pure systems or a density matrix for mixed, noisy, or open systems.
Quantum Education
Learn the Laws
Public education and future blog layer
Quantum Education explains the laws, experiments, benchmarks, and scientific concepts behind NQE1. This section can evolve into a public blog for quantum physics, simulation, and NeoAmorfic research progress.
Hamiltonian
The Hamiltonian is the energy law of the system. It determines how a closed quantum system evolves in time.
Decoherence
Real quantum systems interact with environments. This causes relaxation, dephasing, and loss of coherence.
Interference
Quantum phase creates interference. NQE1 benchmarks this through Ramsey, beam splitter, Hong-Ou-Mandel, and Mach-Zehnder experiments.
Future Education Topics
- The 17-law architecture
- What is a density matrix?
- Why Hamiltonians matter
- What decoherence means
- What is a quantum benchmark?
- What is gate fidelity?
- Why photonics matters
- What optomechanics simulates