| SES # | TOPICS | KEY DATES |
|---|---|---|
| 1 |
IntroductionOptical eavesdropping tap, action at a distance, and long-distance quantum state transmission | Problem set 1 out |
| 2 |
Dirac-notation quantum mechanicsQuantum systems, states as ket vectors, state evolution via Schrödinger's equation, and quantum measurements | |
| 3 |
Dirac-notation quantum mechanics (cont.)Quantum measurement statistics, Schrödinger picture versus Heisenberg picture, and Heisenberg Uncertainty Principle |
Problem set 1 due Problem set 2 out |
| 4 |
Quantum harmonic oscillatorQuantization of a classical LC circuit, annihilation and creation operators, and energy eigenstates | |
| 5 |
Quantum harmonic oscillator (cont.)Measurement statistics and transition to the classical limit of noiseless oscillation |
Problem set 2 due Problem set 3 out |
| 6 |
Quantum harmonic oscillator (cont.)Quadrature-representation wave functions, minimum uncertainty-product states, squeezed states and their measurement statistics | |
| 7 |
Quantum harmonic oscillator (cont.)Quadrature measurement statistics and phase space, characteristic functions and Wigner distribution, and positive operator-valued measurement of â |
Problem set 3 due Problem set 4 out |
| 8 |
Quantum harmonic oscillator (cont.)Positive operator-valued measurement Single-mode photodetectionContrasting semiclassical and quantum theories of direct detection and balanced homodyne detection in ideal photodetectors | |
| 9 |
Single-mode photodetection (cont.)Optical heterodyne detection and the â positive operator-valued measurement |
Problem set 4 due Problem set 5 out |
| 10 |
Single-mode photodetection (cont.)Signatures of non-classical light and the squeezed-state waveguide tap |
Problem set 5 due Problem set 6 out |
| 11 |
Single-mode photodetection (cont.)Single-mode photodetection with inefficient detectors Single-mode linear systemsClassical and quantum theories of linear attenuation and linear amplification | Term paper guidelines out |
| 12 |
Single-mode and two-mode linear systemsQuantum mechanics of attenuators and amplifiers; phase-insensitive and phase-sensitive amplifiers |
Problem set 6 due Problem set 7 out |
| 13 |
Two mode linear systems (cont.)Dual parametric amplifier, photon twins, and entanglement Four-mode quantum systemsPolarization entanglement and qubit teleportation | |
| 14 |
TeleportationPolarization entanglement and qubit teleportation; quadrature entanglement and continuous-variable teleportation |
Problem set 7 due Problem set 8 out |
| 15 |
Teleportation (cont.)Continuous-variable teleportation | |
| 16 |
Quantum cryptographyOne-time pad classical cryptography, Bennett-Brassard 1984 quantum key distribution protocol, Clauser-Home-Shimony-Holt form of Bell's inequality, and Ekert protocol quantum key distribution | Problem set 8 due |
| Mid-term quiz | Term paper proposal due | |
| 17 |
Quantization of the electromagnetic fieldMaxwell's equations, plane-wave mode expansions, and multi-mode number states and coherent states | |
| 18 |
Continuous-time photodetectionPoisson shot-noise semiclassical model, photon-flux operator measurement quantum model, and direct-detection signatures of non-classical light | |
| 19 |
Continuous-time photodetection (cont.)Noise spectral densities in direct detection, semiclassical and quantum theories of coherent detection, and coherent-detection signatures of non-classical light | |
| 20 |
Nonlinear opticsMaxwell's equations with a nonlinear polarization, coupled-mode equations for parametric downconversion, phase-matching for efficient interactions, and classical theory of optical parametric amplification in second-order nonlinear crystals | |
| 21 |
Nonlinear optics (cont.)Coupled-mode equations for parametric downconversion, continuous-time field operator theory of spontaneous parametric downconversion and Gaussian-state characterization | |
| 22 |
Quantum signatures from parametric interactionsQuantum interference, photon indistinguishability, Hong-Ou-Mandel interferometry, the biphoton, generation of polarization entanglement, photon twins from an optical parametric amplifier | |
| 23 |
More quantum optical applicationsBinary optical communication with squeezed states, phase-sensing interferometry with squeezed states, super-dense coding with entangled states, and quantum lithography with "N00N" states | Term paper due |
