Day	Date	Lec #	Subject	Read	PS Out	PS In
T	04-Feb	1	Introduction to Quantum Circuits and Computing
R	06-Feb	2	Classical and Quantum Models of Superconductors
T	11-Feb	3	Josephson Junctions and Devices
R	13-Feb	4	Quantization of Electrical Circuits
T	18-Feb		Monday Schedule of Classes (no class)
R	20-Feb	5	Quantization of Curcuits with DC Sources
T	25-Feb	6	Cooper-Pair Box
R	27-Feb	7	Quantum RF SQUID & Persistent Current Qubit
T	04-Mar	8	Hybrid Superconducting Qubits
R	06-Mar	9	Quantum Computing: Two-State System I
T	11-Mar	10	Quantum Computing: Two-State System II
R	13-Mar	11	Quantum Computing: Two-State System III
T	18-Mar	12	Coupled Qubits
R	20-Mar	13	Quantum Computing Algorithms
T	25-Mar		Spring Vacation Week
R	27-Mar		Spring Vacation Week
T	01-Apr	14	Fast Control Circuitry: SFQ electronics
R	03-Apr	15	Branch, Nodal, and Mesh Circuit Formulations
T	08-Apr	16	Inclusion of Sources
R	10-Apr	17	Lagrangian and Hamiltonian Formulations
T	15-Apr	18	Canonical Variables
R	17-Apr	19	Quantization without Sources
T	22-Apr		Patriots Day-Holiday
R	24-Apr	20	Transformations Among Canonical Variables
T	29-Apr	21	Quantization with Sources
R	01-May	22	Quantum Model of a Resistor
T	06-May	23	Decoherence: Relaxation and Dephasing
R	08-May	24	Spin-Boson Model
T	13-May	25	Assessment and Future Research in Quantum Computing
R	15-May	26	Summary