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Center for Materials and Devices for Information Technology Research
This wiki is a reference collection on photonics. Most of the text has been captured from a series of lectures recorded in 2005-2008 by center faculty Jean-Luc Bredas (Georgia Tech), Neal Armstrong (University of Arizona) and Seth Marder (Georgia Tech). You may also want to search the CMDITR Photonics Digital Libary for individual learning objects.

Photonics Education Links Outside of the CMDITR

GRADUATE COURSE MODULES OUTLINE

Thrust 1 Organic Electo-Optic and All-Optical Materials and Devices

A. Propagation of Light (Bredas)

• Light Propagation in Materials
• Optical Fibers
• Total internal reflection
• Planar dielectric waveguides
• Optical fiber waveguides
• Dispersion and attenuation phenomena
• Optical fiber materials
• Optical communication systems
• Materials (Carl Bonner)

B. Quantum Mechanical and Perturbation Theory of Polarizability (Bredas, Robinson, Rehr)

C. Second-order Processes, Materials & Characterization

• Second-order Processes (Marder)
• Structure-property Relationships for Second-order Nonlinear Optics
• Second-order NLO Materials (Marder)
• Second-order Material Design (Jen)
• Characterization of Molecular Properties of Second-order Materials (Reid)
• Characterization of Electro-optic Materials (Norwood)
• THz Polymers Wiki (Hayden)

D. Third-order Processes, Materials & Characterization

• Introduction to Third-order Processes and Materials (Marder)
• Two Photon Absorption (Marder)
• Advanced Concepts in Third-order Processes
• Characterization of Third-order Materials (Perry)

E. Synthesis of Organic Semiconductors (Luscombe, Reid)

F. Techniques for Fundamental Processes (Ginger)

G. Design of n-type Seconductors for Organic Electronics Applications

H. Lasers (Bredas)

I. Integrated Si Photonics (Hochberg)

Thrust 2 Light Sources and Organic Electronics

A) Center Overview -

“Photonic Integration--Size, Weight, and Power Savings and Dramatic Performance, Enhancements and Cost Reduction for Computing, Telecommunications, Transportation, Health Care, and Defense" – Larry Dalton

B) Basics of light– (JLB)

• Propagation of Light
• Reflection and Refraction
• Total Internal Reflection
• Dispersion and Scattering of Light
• Diffraction of Light

C) Luminescence and Color – (Kippelen)

• Luminescence Phenomena
• Introduction to Electromagnetic Radiation
• Electromagnetic Spectrum
• Color
• Chromaticity Diagram
• Additive and Substractive Color Mixing

D) Molecular Orbitals – (Marder & JLB)

• Atomic Orbitals and Nodes
• Electronegativity and Bonding between Atoms
• Sigma and pi orbitals
• Electronic Coupling between Orbitals
• Donors and acceptors

E) Electronic Band Structure of Organic Materials – (JLB)

• Introduction
• Electronic Structure of Hydrogen
• The Polyene Series, Part 1
• The Polyene Series, Part 2
• Bloch's Theorem, Part 1
• Bloch's Theorem, Part 2
• Electrical Properties
• Electronic States versus Molecular Levels

F) Absorption and Emission of Light – (JLB & Marder)

• Introduction
• Changes in Absorption Spectra
• Jablonski diagram
• Absorption, Internal Conversion, Fluorescence, Intersystem Crossing, and Phosphorescence Processes
• Spectroscopy, Extinction Coefficient, Oscillator Strength, Transition Dipole Moment
• Absorption and Emission
• Photochromism
• Interchain Interactions

G) Transport Properties– (JLB)

• Introduction
• Band Regime versus Hopping Regime
• Electronic Coupling
• Model Calculations of Electronic Coupling, Part 1
• Model Calculations of Electronic Coupling, Part 2
• Small Electronic Couplings and Marcus Theory
• Intramolecular Reorganization Energy
• Electron-Phonon Coupling

H) Liquid Crystals and Displays – (Marder)

• Introduction to Liquid Crystals
• Double Refraction and Birefringence
• History of Liquid Crystals
• Director – Degrees of order in Liquid Crystals
• Classification and Examples of Liquid Crystals, Part 1
• Classification and Examples of Liquid Crystals, Part 2
• Alignment
• Freederickz Transition and Dielectric Anisotropy
• Liquid Crystal Displays

I) OLEDs – (Armstrong)

• Preface
• Light Emitting Electrochemical Processes, Part 1
• Light Emitting Electrochemical Processes, Part 2
• What is a Light Emitting Diode?
• The first OLEDs
• Organic/Organic’ Heterojunctions in OLEDs
• OLED Charge Mobilities
• Organic Heterojunctions
• Adding Highly Fluorescent/Phosphorescent Dopants to OLEDS to Enhance Light Output and Stability, Part 1
• Adding Highly Fluorescent/Phosphorescent Dopants to OLEDS to Enhance Light Output and Stability, Part 2

J) Introduction to Organic Solar Cells (JLB)

• Introduction
• Energy Needs
• Solar Technologies
• Major Processes in Organic Solar Cells
• Materials used in Organic Solar Cells
• Organic Heterojunctions
• Physics of Solar Cells
• Energy vs Charge Transfer at Heterojunctions

K) Organic Photonics Applications in Information Technology

• Modulators for fiber communication

L) Recent results of “state-of-the-art” STC research