Quantum Computation - models of computation, algorithms, complexity, quantum simulation, design of physical implementations;
Quantum Communication - cryptographic and communication protocols, teleportation and remote stae preparation, design of physical implementations;
Quantum Information Theory - information dynamics, entanglement measurements, theory of quantum error correction, generalizations of probability theory;
Quantum Control - coherent dynamics, decoherent dynamics, state and process tomography, fidelities, benchmarks;
Computation Device Physics - fundamental principles, experimental demonstrations, and practical applications using superconductors, quantum dots, ion traps, neutral atom lattices, quantum optics, nuclear magnetic resonance, etc.;
Applications of QIP Ideas to other Disciplines.