EE 232 Lightwave Devices Lecture 1: Overview and Introduction

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Transcription:

EE 232 Lightwave Devices Lecture 1: Overview and Introduction Instructor: Ming C. Wu University of California, Berkeley Electrical Engineering and Computer Sciences Dept. EE232 Lecture 1-1

Course Information (1) Website: www-inst.eecs.berkeley.edu/~ee232/sp18/ All lecture notes, homeworks will be posted there HW and exam scores will be posted in bcourses Discussion in Piazza Instructor: (511 SDH, wu@eecs) GSI: Kevin Han (kyh@eecs) Lectures: TuTh 12:40-2:00P 293 Cory Discussion: Wed 2:10-3:00P 293 Cory OH: tbd Textbook (on reserve in Eng Lib) S.L. Chuang, Physics of Photonic Devices, 2 nd Edition, John Wiley and Sons, 2009 EE232 Lecture 1-2

Course Information (2) Reference Books (on reserve at Engineering Library) Yariv & Yeh, Photonics: Optical Electronics in Modern Communications, Oxford University Press, 2006 L A Coldren;; S W Corzine;; Milan Mashanovitch, Diode Lasers and Photonic Integrated Circuits, John Wiley & Sons, 2012 Saleh & Teich, Fundamentals of Photonics, 2nd Ed. Wiley, 2007 [Reference for discussion session] Lukas Chrostowski and Michael Hochberg. Silicon Photonics Design: From Devices to Systems. Cambridge University Press, 2015. PREREQUISSITES EECS 130: Simple p-n junction, semiconductor physics, concept of energy bands, Fermi levels. PHYS 137A: recommended. Basic concept of quantum mechanics, perturbation theory EECS 117: recommended. Concept of dielectric waveguide, electromagnetic waves. EE232 Lecture 1-3

Course Information (3) EXAM & GRADES Homework 20% 2 Midterms 20% + 20% Final Exam 20% Projects 20% Final Exam At Last lecture HW/Project policy Discussion is permitted (and encouraged), but you must do your own HW, including literature search, derivation, or calculation. The subject of your project should not be exactly the same as other students EE232 Lecture 1-4

Course Information (4) Discussion Session GSI, Kevin Han, will go over introduction to Lumerical simulation tool, and discuss various design examples Attendance is mandatory since the materials do not overlap with lecture materials Bring your laptop (Lumerical will be installed on your laptop) Project Project will include design and simulation of new optoelectronic devices or circuits. The passive optical components need to be simulated using Lumerical. Some examples will be given in discussion session. EE232 Lecture 1-5

The Nobel Prize in Physics 2000 Zhores I. Alferov, Herbert Kroemer, Jack S. Kilby The Nobel Prize in Physics 2000 was awarded "for basic work on information and communication technology" with one half jointly to Zhores I. Alferov and Herbert Kroemer "for developing semiconductor heterostructures used in high-speed- and opto-electronics" and the other half to Jack S. Kilby "for his part in the invention of the integrated circuit". EE232 Lecture 1-6

The Nobel Prize in Physics 2014 Isamu Akasaki Hiroshi Amano Shuji Nakamura The Nobel Prize in Physics 2014 was awarded jointly to Isamu Akasaki, Hiroshi Amano and Shuji Nakamura "for the invention of efficient blue light-emitting diodes which has enabled bright and energy-saving white light sources". EE232 Lecture 1-7

Common Optoelectronic Components EE232 Lecture 1-8

Optoelectronics Market Segment Flat panel displays PC, Tablet, TV, mobile devices, AR/VR head-mount displays High brightness LEDs Solid state lighting, large display panels, automotive applications, LCD backlighting Imaging Digital cameras, light field camera, 3D sensing Diode lasers Data communications and telecommunications Sensing High power laser pumping source Renewable energy Solar cells EE232 Lecture 1-9

Photonic Integrated Circuits (PIC) for Telecommunication Networks Infinera EE232 Lecture 1-10

Silicon Photonic Links EE232 Lecture 1-11

Internet and Data Centers Every 60 Seconds 204 MILLION Emails 5 MILLION Google Searches Global Data Center IP Traffic Growth Zettabytes/year 3 X in 5 years 1.8 MILLION Likes Image of Google Data Center CISCO Global Cloud Index 2014-2019 Data Center Traffic (2019) EE232 Lecture 1-12 http://www.google.com/about/datacenters/gallery CISCO Global Cloud Index 2014-2019

VG by Laurent Schares (IBM) EE232 Lecture 1-13

Evolution of LED Materials/Performances EE232 Lecture 1-14

HB-LED Technology AlInGaN flip-chip (Lumiled) AlGaInP/GaP truncated inverted pyramid (Lumiled) AlInGaP micro mirror (Osram), AlInGaN patterned substrate and mesh electrode (Nichia) Source: LumiLeds EE232 Lecture 1-15

Applications of HBLEDs Traffic Signals (inc white) Source: http://www.northamericanlighting.com Source: Toshiba (Technorainbow) Outdoor lighting scenarios Source: Wustlich Design AG Furniture Lighting Architectural lighting EE232 Lecture 1-16

3D Imaging: Velodyne LIDAR EE232 Lecture 1-17

EE232 Lecture 1-18

3D Imager in Mobile Devices EE232 Lecture 1-19

3D Imager with Structured Light Illumination 30,000 IR Dots EE232 Lecture 1-20

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