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Fiber Optic Communications

Course overview Offering: Self-Paced (2020) Section: Default

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Unit 1: Optical Fibers

Lectures

L1.1: Overview of Fiber Optics

L1.2: Multi-mode/Single-mode Fibers

L1.3: Grated Index (GRIN) and Step Index Fibers

L2.1: Fiber Modes

L2.2: System Components

L2.3: Modulation

L2.4: Multiplexing

Unit 2: Fiber Equations and Networking

Lectures

L2.1: Fiber Modes

L2.2: System Components

L2.3: Modulation

L2.4: Multiplexing

Unit 3: Optical Transmitters

Lectures

L3.1: Einstein Coefficients

L3.2: Semiconductor Photonics

L3.3: Light Emitting Diodes

Unit 4: Lasers

Lectures

L4.1: Laser Principles

L4.2: Laser Transistions

L4.3: General Rate Equations

Unit 5/6: Semiconductor Lasers

Lectures

L5.1: Amplification

L5.2: Lasing Conditions

L6.1: Quantum Confienment

L6.2: Functionality

Unit 7: Optical Telecommunications System Limitations

Lectures

L7.1: Optical Telecommunications Links

L7.2: System Limitations

Unit 8: Optical Amplifiers

Lectures

L8.1 Optical Amplifier Principles

L8.2: Optical Amplifier Hardware

Unit 9: Wavelength Division Multiplexing

Lectures

L9.1: WDM Principles

L9.2: WDM Hardware

L9.3: Hybrid Packet/Optical Networks

Unit 10: Modulation Formats

Lectures

L10.1: CDM, TDM

L10.2: ASK, PSK, and FSK

Unit 11: Networking Growth

Lectures

L11.1: Upgrading Existing Network Hardware

L11.2: Improved Communications Protocols

L11.3: Novel Network Conceptsl

Unit 12: On-Chip Interconnects

Lectures

L12.1: Guided Wave Interconnects

L12.2: Photonic Crystals

L12.3: Photonic Waveguides

L12.4: Photonic Slabs

Unit 13: Quantum Key Distributions

Lectures

L13.1: Classical Cryptography

L13.2: Quantum Key Distributions

Unit 14: Quantum Networks

Lectures

L14.1: Quantum Networking Fundamentals

L14.2: Quantum Repeaters

L14.3: Quantum Teleportation

L14.4: Quantum Compution

Welcome

Lectures

Overview