LASER Fall 2022/2023 Handout PDF

Summary

This document is a handout on LASER, covering topics like what is LASER, difference between LASER and ordinary light, lasing action, population inversion, pumping process, LASER operation, types of LASER, and applications of laser. It's for a Fall 2023 course at the Faculty of Applied Health Science.

Full Transcript

Faculty of Applied Health Science 11/20/2022
Technology

Physics

by

Dr. Ahmed Yassin
Fall 2022/2023

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Topics
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 What is LASER ?
 Difference between LASER and ordinary light.
 Lasing action.
 Population inversion.
 Pumping process.
 LASER operation.
 Types of LASER.
 Applications of laser.

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Technology

What is LASER ?
 is an acronym for “ Light Amplification
By Stimulated Emission of Radiation ”.

 Laser devices stimulate atoms or molecules to emit light at
particular wavelengths and amplifies that light, typically
producing a very narrow beam of radiation. The emission
generally covers an extremely limited range of visible, infrared, or

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Difference between LASER
and ordinary light
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Dr./ Ahmed Yassin..... Physics

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Technology

Stimulated emission Spontaneous emission
Highly energized Poorly energized

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Lasing action
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 The laser is an outgrowth of a suggestion
made by Albert Einstein in 1916 that:

“Under the proper circumstances atoms
could release excess energy as light, either
spontaneously or when stimulated by
light”.

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Technology

LASING ACTION
 According to Einstein, the interaction of
radiation with matter could be explained in
terms of three basic processes:

1. Absorption,

2. Spontaneous emission, and

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3. Stimulated emission.
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Absorption
 In the equilibrium position, atom is initially
lying in the ground level of energy E1.

 Atom raises to the upper excited level E2 ,
when it absorbs a photon with energy = ΔE.

∆𝑬 𝑬𝟐 𝑬𝟏 𝒉𝝊

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Technology

Spontaneous Emission

 Atom (or molecule) is in the excited state E2.

 The atom will tend to spontaneously decay to the ground state E1.

 A photon with energy (hυ) will be released in a random direction.

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Stimulated Emission
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 Atom (or molecule) is in the excited state E2.

 The atom will be hit by another photon.

 So, it decays to the ground state E1.

 Two photons with energy (2hυ) will be released.

 The two photons will have the
same energy, direction, phase
and polarization.

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Faculty of Applied Health Science 11/20/2022
Technology

Population inversion
 Population inversion is the process of
achieving greater population of higher
energy state as compared to the lower
energy state.

 Population inversion
technique is mainly used

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Pumping Process
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 Let us assume that initially the majority of electrons
will be in the lower energy state or ground state (E1)
and only a small number of electrons will be in
excited states (E2 and E3).

 When we supply light energy which is equal to the
energy difference of E3 and E1, the electrons in the
lower energy state (E1) gains sufficient energy and
jumps into the higher energy state (E3).

 This process of supplying energy is called pumping.

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Technology

Pumping Process

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 We also use other methods to excite ground state electrons such
as electric discharge and chemical reactions. The flow of
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electrons from E1 to E3 is called pump transition.

Common types of pumping
1- Optical pumping by light in case of
solids,
2- Excitation by electric discharge in
case of gases.
3- Thermal pumping, and
4- Chemical reactions.

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LASER operation
The LASER device should contain:

1- Pump, which is an external source of energy that produces a
population inversion.
2- Amplifying medium, which is a material or substance of solid,
liquid, or gaseous nature that is able to produce a laser light.
3- Resonator, which consists of a pair of aligned plane or curved
mirrors. One of them is of 100 % reflectivity, while the other

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How does LASER work ?
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Faculty of Applied Health Science 11/20/2022
Technology

How does LASER work ?

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Types of LASER
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Lasers are classified into 4 types based on the type of
LASER medium used:
1- Solid-state laser such as: ruby laser and neodymium-
doped Yttrium Aluminum Garnet (Nd:YAG) laser.
2- Gas laser such as: CO2 laser.
3- Liquid laser.
4- Semiconductor laser.

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Solid-state laser
A solid-state laser is a laser that uses solid as a laser medium. In
these lasers, glass or crystalline materials are used.

 The first solid-state laser was a ruby laser. It is still used in some
applications. In this laser, a ruby crystal is used as a laser medium.

 In solid-state lasers, light energy is used as pumping source. Light
sources such as flashtube, flash lamps, arc lamps, or laser diodes

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are used to achieve pumping.
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Solid-state laser
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Technology

Gas laser
 A gas laser is a laser in which an electric current is discharged through a gas
inside the laser medium to produce laser light. In gas lasers, the laser medium
is in the gaseous state.
 Gas lasers are used in applications that require laser light with very high beam
quality and long coherence lengths.
 Gas lasers are of different types: they are, Helium (He) – Neon (Ne) lasers,
argon ion lasers, carbon dioxide lasers (CO2 lasers), carbon monoxide lasers
(CO lasers), excimer lasers, nitrogen lasers, hydrogen lasers, etc.
 The type of gas used to construct the laser medium can determine the lasers

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Gas laser
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Dr./ Ahmed Yassin..... Physics

Dr./ Ahmed Yassin..... Physics 11
Faculty of Applied Health Science 11/20/2022
Technology

Semiconductor laser
 Semiconductor lasers play an important role in our everyday life.
These lasers are very cheap, compact size and consume low power.
Semiconductor lasers are also known as laser diodes.
 Semiconductor lasers are different from solid-state lasers. In solid-
state lasers, light energy is used as the pump source whereas, in
semiconductor lasers, electrical energy is used as the pump source.
 In semiconductor lasers, a p-n junction of a semiconductor diode
forms the active medium or laser medium. The optical gain is

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Semiconductor laser (laser diode)
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Technology

Applications of LASER
The most significant applications of lasers include:

Lasers in medicine

Lasers in communications

Lasers in industries

Lasers in science and technology

Lasers in military

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