Introduction:
Need of QKD, concept of Quantum computing, Demand and future of the QKD, discussion of Job prospects on the field
Fundamentals for understanding QKD:
Physical parameters, optics components and working principles, electrical and electronics components, measurements and result analysis.
Introduction to python:
Basics needed for implementing some of the concepts of physics on python.
Quantum physics:
Discussion of concepts and usage in real world applications, quantum entanglement, superposition in quantum physics, noclonning theorem
Production of quantum (entanglement and single photon) source needed for QKD:
How do we create a quantum source, phase matching of EM fields, nonlinear optics, procedures to prepare quantum source
Production of quantum (entanglement and single photon) source needed for QKD:
How do we create a quantum source, phase matching of EM fields, nonlinear optics, procedures to prepare quantum source
Discussion of different methods on preparing quantum source:
A complete guide on Bennet bressad (BB84) QKD protocol
A discussion on entanglement based cryptography: Discussion of Ekert 91 QKD protocol
Simulation and experimental procedures of Ekert 91 protocol
Simulation and experimental procedures of Ekert 91 protocol