The NCCR MUST is an interdisciplinary research program launched by the Swiss National Science Foundation in 2010. The first working LASER was created on May 17, 1960. This set of three laser lessons introduces students to the properties of lasers, the fundamental components of a laser, and The following books are at about the right level, and contain sections on almost everything that we will cover: 1.\Laser Physics," Simon Hooker & Colin Webb, Oxford University Press. Understanding of this important concept leads to the ability to: •Understand and design custom semiconductor materials with optical and electrical properties tailored to specific needs •Understand and design electrical and optical devices including advanced diodes, LEDs, LASER diodes, Work +41 44 633 24 00; Fax +41 44 633 10 59; Footer. a modern approach to physics on the nano scale. Welcome! *) These items do not form part of the exam. Press Enter to activate screen reader mode. Notes on Length Gauge (PDF, 244 KB) Lecture 3, 22-3-2010: From SFA to tunneling (PDF, 735 KB) ... Ultrafast Laser Physics Auguste-Piccard-Hof 1. Laser notes pdf. Switzerland. MIT OpenCourseWare is a free & open publication of material from thousands of MIT courses, covering the entire MIT curriculum.. No enrollment or registration. The first HeNe-Laser, a gas laser followed in 1961. Prepared By: Spontaneous and Stimulated Emission Spontaneous emission: Spontaneous … 1. a new laser technology platform at ETH Zürich, JavaScript has been disabled in your browser, Civil, Environmental and Geomatic Engineering, Humanities, Social and Political Sciences, Information Technology and Electrical Engineering. Figure 7.1: Theodore Maiman with the first Ruby Laser in 1960 and a cross sectional view of the first device [4]. This OCW supplemental resource provides material from outside the official MIT curriculum. Keyword or person. Don't show me this again. Technische Hochschule Zürich. • Lecture 1: What lasers are, and how they work • Lecture 2: Resonators and resonator modes • Lecture 3: Laser beam propagation • Lecture 4: Tutorial answers • Lecture 5: Demonstration of laser types Subject: Engineering Physics (PHY-1) Common For All Branches Unit: 2.1 LASER Syllabus: Spontaneous and stimulated emissions, Laser action, characteristics of laser beam-concepts of coherence, He-Ne and semiconductor lasers (simple ideas), applications. The lectures and notes should give you a good base from which to start your study of the subject. Chapter 1: Introduction / Motivation *) (PDF, 32.9 MB), Chapter 2: Linear pulse propagation (PDF, 12.9 MB), Chapter 3: Dispersion compensation (PDF, 33 MB), Chapter 4: Nonlinear pulse propagation (PDF, 25.5 MB), Chapter 4b: Chi(2) nonlinearities with ultrashort pulses (PDF, 7.9 MB), Chapter 5: Relaxation oscillations (PDF, 5.4 MB), Chapter 7: Active modelocking (PDF, 9.1 MB), Chapter 8a: Passive modelocking (PDF, 20.8 MB), Chapter 8b: Passive modelocking (PDF, 7.3 MB), Chapter 8c: Q-switching instabilities (PDF, 2 MB), Chapter 9: Pulse measurement (PDF, 40 MB), Chapter 13: Ultrafast measurements (PDF, 7.2 MB), Chapter 11: Frequency comb and carrier-envelope offset phase effects  (PDF, 12 MB), Chapter 12: High-order harmonic generation (PDF, 20.7 MB), Chapter 14: Ultrafast terahertz science (PDF, 6.2 MB), Overview applications (Nature 2003) (PDF, 298 KB), Executive Summary: Landolt-Börnstein book-chapter (PDF, 1.3 MB), Eidgenössische 8093 Zürich. a laser based on the solid-state laser material Ruby. Chapter 11: Frequency comb and carrier-envelope offset phase effects (PDF, 12 MB) Chapter 12: High-order harmonic generation (PDF, 83.5 MB) Chapter 14: Ultrafast terahertz science (PDF, 6.2 MB) It is a gas laser built by Ali Javan at MIT, with a wavelength of 632.8 nm and a … The Physics of LASERs, Teacher Edition 3 Teacher Introduction Summary for all Lessons These lessons were written to celebrate the 50th birthday of the LASER. Services. Search. FastLab However, you will need to do some further reading.