Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Area Courses Electromagnetics, Optics, Photonics
Document related concepts
Orchestrated objective reduction wikipedia , lookup
Copenhagen interpretation wikipedia , lookup
Many-worlds interpretation wikipedia , lookup
Symmetry in quantum mechanics wikipedia , lookup
Quantum group wikipedia , lookup
History of quantum field theory wikipedia , lookup
Quantum teleportation wikipedia , lookup
Quantum machine learning wikipedia , lookup
EPR paradox wikipedia , lookup
Quantum state wikipedia , lookup
Quantum key distribution wikipedia , lookup
Canonical quantization wikipedia , lookup
Transcript
Ming Hsieh Department of Electrical Engineering Area Courses Electromagnetics, Optics, Photonics Fundamental Courses EE 470 Electromagnetics II Optics and Photonics EE 474 Introduction to Photonics EE 529 Optics EE 470 EE 471 Applied Quantum Mechanics for Engineers EE 530 Optical Materials, Instruments and Devices EE 529 or EE 539 Engineering Quantum Mechanics EE 531 Nonlinear Optics EE 540 Introduction to Quantum Electronics EE 470 EE 642 Advanced Geometrical Optics EE 470 EE 529 EE 506 Semiconductor Physics Applications EE 551 Principles of Radar Experimental Methods EE 558 Optical Fiber Communication Systems EE 470 EE 599 Optics Laboratory EE 566 Optical Information Processing EE 571ab Microwave Networks EE 470 EE 573ab Antenna Analysis EE 578 Reflector Antennas EE 470 EE 470 Legend Grouping EE 000 Course Title Prerequisite Courses Corequisite Courses This chart shows course relationships Please check the University Catalogue for specific course details including any recommended prepatory courses and Degree Requirements Rev. 201507
