Acerca de este Curso
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Prueba conferencias, lecturas de curso y tareas autoguiadas de Título Boulder MS-EE

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Fechas límite flexibles

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Nivel avanzado

Aprox. 18 horas para completar

Sugerido: 6 weeks of study, 2-5 hours per week...

Inglés (English)

Subtítulos: Inglés (English)

Comienza a trabajar para obtener tu título

Prueba conferencias, lecturas de curso y tareas autoguiadas de Título Boulder MS-EE

100 % en línea

Comienza de inmediato y aprende a tu propio ritmo.

Fechas límite flexibles

Restablece las fechas límite en función de tus horarios.

Nivel avanzado

Aprox. 18 horas para completar

Sugerido: 6 weeks of study, 2-5 hours per week...

Inglés (English)

Subtítulos: Inglés (English)

Programa - Qué aprenderás en este curso

Semana
1
3 horas para completar

Semiconductor fundamentals

I am really looking forward to introducing you to the magical world of semiconductors. In this module, we will review the basics of semiconductor physics and you will learn how we can manipulate the materials to tailor electrical and optical properties.

...
14 videos (Total 57 minutos), 3 readings, 2 quizzes
14 videos
Introduction to Light Emitting Diodes and Semiconductor Lasers1m
Introduction to Semiconductor Fundamentals2m
Energy Bands and Semiconductors5m
Definition of a Semiconductor2m
Density of States7m
Carrier Density5m
Carrier Density, Part II6m
Carrier Density, Part III5m
Intrinsic and Extrinsic Semiconductors4m
Dopant Energy Levels, Part I2m
Dopant Energy Levels, Part II1m
Charge Neutrality, Part I3m
Charge Neutrality, Part II5m
3 lecturas
Recommended References5m
Reference Values and Equations for Homework10m
MATLAB License5m
2 ejercicios de práctica
Semiconductor Fundamentals Practice45m
Semiconductor Fundamentals45m
Semana
2
3 horas para completar

Radiative recombination in semiconductors

In the last module, we learned about the basics of semiconductor physics. In this module, we will apply this knowledge to understand how semiconductors emit light, and the basis for optoelectronic devices such as lasers and light emitting diodes.

...
15 videos (Total 51 minutos), 2 readings, 2 quizzes
15 videos
Radiative and Non-Radiative Transitions, Part I3m
Radiative and Non-Radiative Transitions, Part II1m
K Selection Rules5m
Direct and Indirect Bandgaps3m
Derivation of Absorption Coefficient2m
Joint Density of States, Direct Bandgap Semiconductor3m
Direct and Indirect Bandgaps, Part II6m
Absorption in Indirect Bandgap Semiconductor3m
Radiative Transition Rate4m
Examples of Radiative Transition Rates in Direct and Indirect Gap Semiconductors40s
Minority Carrier Lifetime, Part I3m
Minority Carrier Lifetime, Part II4m
Minority Carrier Lifetime, Part III2m
Radiative Efficiency1m
2 lecturas
References5m
Reference Values and Equations for Homework #210m
2 ejercicios de práctica
Radiative Recombination in Semiconductors Practice45m
Radiative Recombination in Semiconductors1h
Semana
3
3 horas para completar

Light Emitting Diode (LED)

In the last module, we learned about how semiconductors can emit light. In this module, we will apply this knowledge to learn about the basics of light emitting diodes. These devices are everywhere you turn and you now have the tools to develop a complete understanding of their operation.

...
14 videos (Total 38 minutos), 2 readings, 2 quizzes
14 videos
PN Junction2m
Current in PN Junction4m
Typical LED Structure1m
LED Losses, Part I3m
Total Internal Reflection2m
LED Losses, Part II58s
LED Efficiencies2m
Emission Spectra, Part I3m
Emission Spectra, Part II1m
Carrier Temperature2m
LED Wavelengths3m
Blue LEDs3m
Double Heterostructure LED2m
2 lecturas
Recommended References5m
Reference Values and Equations for Homework #310m
2 ejercicios de práctica
Light Emitting Diode (LED) Practice45m
Light Emitting Diode (LED)1h
Semana
4
2 horas para completar

Fundamentals of semiconductor lasers

In the last module, we learned about light emitting diodes or LEDs. Now, we will use our knowledge of semiconductors and in particular, radiative recombination, to tackle an even more powerful device, the semiconductor laser. This technology is probably the most successful laser technology of our time, with every compact disc player incorporating a 6-cent semiconductor laser. I hope you enjoy this unit as much as I do.

...
12 videos (Total 34 minutos), 2 readings, 2 quizzes
12 videos
History of Semiconductor Laser4m
Fundamental Processes in a Semiconductor Laser3m
Non-Equilibrium Carrier Distribution5m
Quasi-Fermi Levels3m
Density of Photons2m
Einstein Coefficients, Part I3m
Einstein Coefficients, Part II3m
Stimulated Emission Rate, Part I3m
Stimulated Emission Rate, Part II52s
Gain in Semiconductor Lasers2m
Gain Spectrum28s
2 lecturas
Recommended References5m
Reference Values and Equations for Homework #410m
2 ejercicios de práctica
Fundamentals of Semiconductor Lasers Practice45m
Fundamentals of Semiconductor Lasers45m
Semana
5
3 horas para completar

semiconductor laser design principles

In the last module, we learned about the basics of semiconductor lasers. Now, we will extend this knowledge to understand the design principles behind this very successful technology. After the module, you will wonder, as I do, how it is possible to produce a semiconductor laser for 6 cents!

...
13 videos (Total 71 minutos), 2 readings, 2 quizzes
13 videos
Laser Oscillation, Part I9m
Laser Oscillation, Part II2m
Waveguide Design6m
Effective Index Method, Part I7m
Effective Index Method, Part II9m
Single Mode Condition and Confinement8m
Fermi Level Review2m
Threshold Current, Part I5m
Threshold Current, Part II1m
Photons in Laser Cavity, Part I5m
Photons in Laser Cavity, Part II2m
Above Threshold5m
2 lecturas
Recommended References5m
Reference Values and Equations for Homework #510m
2 ejercicios de práctica
Semiconductor Laser Design Principles Practice30m
Semiconductor Laser Design Principles1h
Semana
6
3 horas para completar

advanced semiconductor laser design principles

In the last module, we learned about basic design principles for semiconductor lasers. In this module, we will take this one step further and learn about advanced concepts that have enabled the current generation of semiconductor lasers. Stay tuned for the magic!

...
10 videos (Total 44 minutos), 2 readings, 2 quizzes
10 videos
PN Junction Laser2m
Heterostructure Laser5m
Double Heterostructure Laser1m
Carrier Confinement in Double Heterostructure Laser6m
Leakage Current in Double Heterostructure Laser1m
Quantum Well Lasers7m
Quantum Effects and Density of States, Part I7m
Quantum Effects and Density of States, Part II5m
Multiquantum Structures2m
2 lecturas
Recommended References5m
Reference Values and Equations for Homework #610m
2 ejercicios de práctica
Advanced Semiconductor Laser Design Principles Practice1h
Advanced Semiconductor Laser Design Principles1h 30m

Instructor

Avatar

Juliet Gopinath

Associate Professor
Electrical, Computer, and Energy Engineering

Comienza de inmediato para obtener tu título

Este curso es parte del Master of Science in Electrical Engineering completamente en línea de Universidad de Colorado en Boulder. Comienza un curso abierto o un programa especializado hoy mismo para ver cursos con profesores de iMBA y completar tareas a tu propio ritmo. Cuando completas cada curso, recibes un certificado que puedes añadir a tu perfil de LinkedIn y currículum. Si envías una solicitud y eres aceptado en el programa completo, los cursos cuentan para tu título.

Acerca de Universidad de Colorado en Boulder

CU-Boulder is a dynamic community of scholars and learners on one of the most spectacular college campuses in the country. As one of 34 U.S. public institutions in the prestigious Association of American Universities (AAU), we have a proud tradition of academic excellence, with five Nobel laureates and more than 50 members of prestigious academic academies....

Acerca del programa especializado Active Optical Devices

This Active Optical Devices specialization is designed to help you gain complete understanding of active optical devices by clearly defining and interconnecting the fundamental physical mechanisms, device design principles, and device performance. You will study and gain active experience with light emitting semiconductor devices like light emitting diodes and lasers, nanophotonics, optical detectors, and displays. Specialization Learning Outcomes: *Analyze and design semiconductor light sources, and surrounding optical systems *Analyze and design detection systems for LIDAR, microscopy and cameras *Analyze and design systems for optical device systems that can adapt to the environment at hand. *Use lasers and optical electronics in electronic systems through an understanding of the interaction of light and atoms, laser rate equations and noise in photo-detection....
Active Optical Devices

Preguntas Frecuentes

  • Una vez que te inscribes para obtener un Certificado, tendrás acceso a todos los videos, cuestionarios y tareas de programación (si corresponde). Las tareas calificadas por compañeros solo pueden enviarse y revisarse una vez que haya comenzado tu sesión. Si eliges explorar el curso sin comprarlo, es posible que no puedas acceder a determinadas tareas.

  • Cuando te inscribes en un curso, obtienes acceso a todos los cursos que forman parte del Programa especializado y te darán un Certificado cuando completes el trabajo. Se añadirá tu Certificado electrónico a la página Logros. Desde allí, puedes imprimir tu Certificado o añadirlo a tu perfil de LinkedIn. Si solo quieres leer y visualizar el contenido del curso, puedes auditar el curso sin costo.

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