LASERS A short introduction on how “lasing” is achieved.

Slides:

Advertisements

Similar presentations

Advertisements

LASER (semiconducting Lasers) LASER 1 EBB 424E Dr Zainovia Lockman.

Nonlinear Optics Lab. Hanyang Univ. Chapter 8. Semiclassical Radiation Theory 8.1 Introduction Semiclassical theory of light-matter interaction (Ch. 6-7)

Apr 13, 2007PHYS General Physics II Applications of Quantum Mechanics.

PHYS 252 Lasers1 Lasers What is stimulated emission? Well, there are two types of light emission that can occur with atoms! The kind that we have been.

Introduction to Lasers 자연과학부 나종훈. 목 차 LASER 의 시초 Atomic Structure Transitions between Laser states Population Inversion Pulsed Operation Power and Energy.

General Properties of Light Light as a wave Speed Wave properties: wavelength, frequency, period, speed, amplitude, intensity Electromagnetic wave.

Light Amplification by Stimulated

Lesson 3 Explain the terms monochromatic and coherent. Identify laser light as a source of coherent light. Outline the mechanism for the production of.

A Short History of Laser H. R. Khalesifard Institute for Advanced Studies in Basic Sciences

BASICS OF LASERS AND LASER LIGHT

EM Radiation Sources 1. Fundamentals of EM Radiation 2. Light Sources

Some quantum properties of light Blackbody radiation to lasers.

Spectroscopy 2: Electronic Transitions CHAPTER 14.

1.2 Population inversion Absorption and Emission of radiation

After School Optics Lab Quiz. 1. What is the phenomenon that explains how light can be channeled called?

Absorption and emission processes

Lasers. Spontaneous Emission  Atomic electrons can be excited by external radiation. EM wavesEM waves Electrons in a fieldElectrons in a field  Atoms.

Transition Probabilities of Atoms and Molecules. Einstein’s analysis: Consider transitions between two molecular states with energies E 1 and E 2 (where.

Laser Principle Eman Ali Ateeq.

Lasers (Light Amplification by Stimulated Emission of Radiation)

An Introduction. The first step on the road to laser was the publication of paper by Albert Einstein in 1916 –describing how atoms could interact with.

Quantum Physics Study Questions PHYS 252 Dr. Varriano.

1 P1X: Optics, Waves and Lasers Lectures, Lasers and their Applications i) to understand what is meant by coherent and incoherent light sources;

Optical Sources. History of Lasers In 1917, Einstein predicted the existence of spontaneous and stimulated emission by which an atom can emit radiation.

1 My Chapter 28 Lecture. 2 Chapter 28: Quantum Physics Wave-Particle Duality Matter Waves The Electron Microscope The Heisenberg Uncertainty Principle.

PHYSICS DEPARTMENT.

LASERS. LASER is an acronym for light amplification by Stimulated Emission of radiation. When radiation interacts with matter we have three processes.

1LASER is a short form of a) Light amplification by stimulated absorption radiation b) Light amplification by stimulated emission of radiation c) Light.

Extended Questions- The Answers

Mellinger Lesson5 Einstein coefficient & HI line Toshihiro Handa Dept. of Phys. & Astron., Kagoshima University Kagoshima Univ./ Ehime Univ. Galactic radio.

Laser physics and its application Introductory Concept The word LASER is an acronym for Light Amplification by Stimulated Emission of Radiation Lasers,

Atomic transitions and electromagnetic waves

LASER LASER stands for LIGHT APLIFICATION by STIMULATED EMISSION of RADITIONS First laser was constructed by Maiman Laser action has been obtained with.

Medical Physics Students

4-Level Laser Scheme nn  m  →  n  excitation  n  →  m  radiative decay slow  k  →  l  fast(ish)  l  →  m  fast to maintain population.

What does LASER stand for? LASER is short for Light Amplification by Stimulated Emission of Radiation Lasers are constantly around us DVDs, laser shows,

Waves, Light & Quanta Tim Freegarde Web Gallery of Art; National Gallery, London.

Light Amplification by Stimulated Emission of Radiation.

SHRI DADAJI INSTITUTE OF TECHNOLOGY & SCIENCE A SEMINAR ON LASER COMMUNICATION PRESENTED BY: HITESH SILARPURIYA E.C. FOURTH SEM.

Major Concepts of Physics PHY 102 – Lecture #  Syracuse University Lecture #19 How does a laser work? April 6 th Spring 2016 Prof. Liviu Movileanu.

Laserlaser. Laser printer Laser pointer Laser: everywhere in your life.

ThemesThemes > Science > Physics > Optics > Laser Tutorial > Creating a Population Inversion Finding substances in which a population inversion can be.

Applications of Quantum Mechanics: Laser Technology.

Absorption Small-Signal Loss Coefficient. Absorption Light might either be attenuated or amplified as it propagates through the medium. What determines.

Assignment on Ruby Laser

Optical Sources.

Light Amplification by Stimulated Emission of Radiation

Lasers (Light Amplification by Stimulated Emission of Radiation)

Light Amplification by Stimulated

8.2.2 Fiber Optic Communications

Laser and its applications

A short introduction on how “lasing” is achieved

RUBY LASER by swapan Das

Origin of The Electromagnetic (EM) Waves

Cutnell/Johnson Physics 7th edition

والصلاة والسلام على سيدنا ونبينا محمد صل الله (الليزر) فكرة عمل الليزر

4-Level Laser Scheme The general view was that it would be impossible or at least very difficult to achieve population inversion relative to the ground.

Laser and its applications

Infrared Visible Light Ultraviolet X-rays Gamma Rays.

Light Amplification by Stimulated Emission of Radiation

LASERS By Swapan Das.

Atomic transitions and electromagnetic waves

Fiber Optic Communication Lec 11 By

PRINCIPLE AND WORKING OF A SEMICONDUCTOR LASER

Лазерлер. Сызықтық емес оптика

PROF. KAPARE A.K. SUBMITTED BY- DEPARTMENT OF PHYSICS

A Brief Account of LASER & Its Application

Lecture 15: Time-Dependent Perturbation

Presentation transcript:

LASERS A short introduction on how “lasing” is achieved

Applications of Lasers To annoy people at the movies Lasers in Industry Lasers in Geography Lasers in Astronomy Lasers in Communication

3 ways radiation interact with the energy levels of atoms Spontaneous Emission –atom*  atom + photon Induced absorption –atom + photon  atom* Induced/stimulated emission –Responsible for laser creation –Atom* + photon  atom + 2photons –2 photons travel in exactly the same direction with the same energy and in phase

Importance of Induced Emission Laser = Light Amplification by Stimulated Emission of Radiation Simple Model –Why won’t this work? Population Inversion –More atoms in upper/excited state than lower state –Done by pumping the ground states to excited states –Once pumped – decay rapidly (sp. em) to a metastable state –More atoms in a metastable state than ground state –Achieves population inversion

Lasing Transition Can happen once population inversion is maintained Transition from metastable state to the ground state Atom* + photon  atom + 2photons

3 level laser Ruby laser 1960 by Theodore Maiman

4 level laser Relieves population inversion difficulty

Summary How A laser Works