LASER

I.                    Find in the text words that stand for the explanations below:


a)      increase in size or effect

b)      having a constant phase relationship

c)       happens

d)      items, material

e)      accidental

f)       cause to happen

g)      reached

h)      changed

i)        line which divides something into equal or roughly equal halves

j)        course, way

k)      appears

l)        hop, jump

m)    instruments

LASER (light amplification by stimulated emission of radiation) is a light amplifier usually used
to produce monochromatic coherent radiation in the infrared, visible, and ultraviolet regions of
the electromagnetic spectrum.

Non-laser light sources emit radiation in all directions^1 as a result of the spontaneous emission
of photons by thermally excited solids (filament lamps) or electronically excited atoms, ions or
molecules (fluorescent lamps, etc.). The emission accompanies the spontaneous return of the excited
species to the ground state^2 and occurs randomly, i.e. the radiation is not coherent. In a laser,
the atoms, ions, or molecules are first “pumped” to an excited state and then stimulated to emit
photons by collision of a photon of the same energy^3. This is called stimulated emission. In order
to use it, it is first necessary to create a condition in the amplifying medium, called population
inversion, in which the majority of the relevant entities are excited. Random emission from one
entity can then trigger coherent emission from the others that it passes. In this way amplification
is achieved.

The laser amplifier is converted to an oscillator^4 by enclosing the amplifying medium within a
resonator. Radiation then introduced along the axis of the resonator is reflected back and forth
along its path by a mirror at one end and by a partially transmitting mirror at the other end.
Between the mirrors the waves are amplified by stimulated emission^5.  The radiation emerges
through the semi-transparent mirror at one end^6 as a powerful coherent monochromatic parallel beam
of light. The emitted beam is uniquely parallel because waves that do not bounce back and forth
between the mirrors quickly escape through the sides of the oscillating medium without
amplification.

Some lasers are solid, others are liquid or gas devices. Population inversion can be achieved by
optical pumping with flashlights or with other lasers. It can also be achieved by such methods as
chemical reactions, discharges in gases, and recombination emission in semiconducting materials.


II.                  Form questions to the underlined parts of the sentences highlighted grey


III.                Give nouns to the following verbs and adjectives, do not use –ing forms:

coherent                                                            to
emit                                                               visible

to occur
fluorescent                                                       necessary

to amplify
electromagnetic                                             relevant


IV.                Change the adjectives in the last column into the ones with the opposite meaning



V.                  Listening practice: listen to the recording and fill in the table with relevant
pieces of information


1


Examples of using lasers in practice


pointers, barcode scanners,________________ cutting and surgeries


2


Lasers first theorized then



year ____________


3


Traditional light bulbs emission, compared to lasers


________________


4


Produce different wavelengths



________________    _______________


5


Used in spectrometers



________________    laser light


6


Excited compound in medical devices lasers


_______________   ______________  /  _____


7


Most advanced laser type example given



_______________  laser


8


Its usage example



faster __________ transfer, tagging __________ cells


9


The advantage of eGFP over GFP



it ____________   _____________


10


Their barrel-like shape causes perfect photon alignment


jelly fish ________________



VI.                Relative clauses

Compare the following three sentences and answer the sentences below them:

1.       Lasers, which were developed in 1960, have become a powerful tool in almost every aspect
of technology.

2.       Lasers which are used in clinical practice must meet strict safety requirements.

3.       The medical staff must be trained for the laser equipment which they use.

In which case can the italicised clause be left out without disturbing the meaning of the sentence?

In which case the clause provides additional information which is not needed for identification of
the subject?

In which cases the clause identifies the subject or the object?

In which cases can which be replaced by that?

In which case can which be left out?


VII.               Relative clauses – practice

Put the following pieces of information into the form of a relative clause and fill them into
respective gaps in the text. In each case decide whether the clause is defining or non-defining and
should therefore be separated by comma(s).

1.       Laser applications have evolved incredibly.

2.       Selective photothermolysis means three given steps.

3.       The tissue is to be damaged.

4.       The surgeon operates the device.

5.       Excessive heat may delay healing and increase scarring.

6.       Storing energy between pulses enables very high power output.

7.       The tubes rotate about the axis of the mirrors.

8.       The scanners scan the laser beam in a present pattern.

MEDICAL LASERS

Since 1960s, laser applications (1)……………………………………………………………………………………………… have become indispensable
in medicine and surgery. There are many medical laser systems, but all of them use the principle of
selective photothermolysis (2)…………………………………………………………………….. three following steps: getting the right
amount of the right wavelength of the laser energy to the right tissue
(3)…………………………………………………………………………………….. .

The right wavelength

Most medical laser devices deliver only one wavelength of the laser light and the surgeon
(4)……………………………………………………………………………………… must select the right wavelength for the specific tissue
involved. Some lasers are frequency-doubled and can deliver two wavelengths of the laser light, and
some are tuneable over a narrow range of wavelengths. Some lasers can be used in different modes,
e.g. long pulse.


The right amount of the laser energy

Almost all medical lasers allow the surgeon to adjust the power setting and the duration of the
pulse. Lasers can operate in two modes: continuous wave (CW) or pulsed mode. CW lasers emit a
steady beam for as long as the laser medium is excited. If this steady beam is held on the tissue
longer than the thermal relaxation time, excessive heat will be conducted in the non-target tissue
(5)……………………………………………………………………………………… . All CW lasers can be pulsed, either mechanically or
electronically. Pulsed lasers emit light in individual pulses within the range between thousandths
to millionths of a second. Switching allows the laser to store energy between pulses
(6)…………………………………………………………………………………….. .


Getting the laser energy there

The laser surgeon uses a delivery device with a handpiece to get the laser energy to the tissue.
Delivery devices include fibre-optic cables or articulated arms with reflecting mirrors inside the
tubes (7)……………………………………………………………………………………... . The laser light is reflected from one mirror to
another through the tube out to the patient. Special devices can be attached to the handpieces,
including slit lamps for the use on the eyes, operating microscopes for the use in the ears and
throat, insulated fibres for the use with endoscopes in gastrointestinal and bronchial surgery, and
scanners (8)………………………………………………………………………………… . Thus, the time a CW beam dwells on a target tissue
can be controlled.








Sources:

Zemanová, Alena (2007) Angličtina pre fyzikov; Univerzita Komenského Bratislava

www.youtube.com