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Tunable Laser

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Title: Tunable Laser


1
TUNABLE LASER
by SIDDHARTHA
SOUMITRA
SNEHA CHAKRABORTY
2
What is tunable laser?
  • A laser in which the frequency of the emitted
    radiation can be changed across some range in the
    UV , visible and IR regions of the
    electromagnetic spectrum. A tunable laser
    consists of an optical gain medium ,a pumping
    process for stimulating and the frequency
    selective optical feedback

3

Brief history and background
  • Tunable lasers were discovered by Sorokin and
    Lankard in 1966. This was a Dye laser. Next a
    narrow-linewidth tunable laser was invented in
    1972.
  • Multiple-Prism grating arrangements
  • in several configurations are used in
  • diode, dye, gas and other tunable lasers.
  • Usually tunable lasers have very large bandwidth
    allowing tuning over a range of tens to hundreds
    of nanometres.
  • .

4
How does a tunable laser work?
  • To create a tunable laser, the cavity coatings
    must be sufficiently broadband to accommodate the
    entire tuning range.
  • Three tuning mechanisms are in general use
    Littrow prisms, diffraction gratings, and
    birefringent
  • filters .
  • Littrow prisms-
  • Littrow prisms are used with gas
  • lasers that operate at discrete
  • wavelengths.
  • Littrow is a 30-60-90-degree prism.
  • The surface opposite the 60-degree
  • angle coated with a broadband high-
  • reflecting coating.

5
  • Diffraction gratings-
  • Gratings are used for laser systems that require
    a higher degree of dispersion than that of a
    full-dispersing prism.
  • Birefringent filters-
  • The filter is made from a thin, crystalline-
  • quartz plate.
  • The filters are placed at Brewsters
  • angle in the laser beam.
  • Rotating the filter around the normal to its face
    shifts the transmission bands, tuning the laser.

6
classification
  • A tunable laser is a laser whose wavelength of
    operation can be altered in a controlled manner.
    There are many types and categories of tunable
    lasers. They exist in the gas, liquid, and solid
    state. Among the types of tunable lasers
    are excimer lasers, gas lasers (such
    as CO2 and He-Ne lasers), dye lasers (liquid and
    solid state), transition metal solid-state
    lasers, semiconductor crystal and diode lasers,
    and free electron lasers.

7
  • Excimer laser-An excimer laser (sometimes more
    correctly called an exciplex laser) is a form
    of ultraviolet laser which is commonly used in
    the production of microelectronic devices  eye
    surgery, psoriasis treatment and micromachining
  • Gas laser-A gas laser is a laser in which
    an electric current is discharged through
    a gas to produce coherent light.The gas laser was
    the first continuous-light laser and the first
    laser to operate on the principle of converting
    electrical energy to a laser light output.

8
  • Dye laser-A dye laser is a laser which uses
    an organic dye as the lasing medium, usually as
    a liquid solution
  • Solid state laser-A solid-state laser is
    a laser that uses a gain medium that is a solid.
    Generally, the active medium of a solid-state
    laser consists of a glass or crystalline "host"
    material to which is added a "dopant" such
    as neodymium, chromium, erbium, orytterbium .
    Titanium-doped sapphire is the most common
    tunable solid-state laser.

9
Diode laser-A laser diode or LD is an
electrically pumped semiconductor laser in which
the active laser medium is formed by a p-n
junction of a semiconductor diode similar to that
found in a light-emitting diode
  • Free electron laser-A free-electron laser (FEL),
    is a type of laser whose lasing medium consists
    of very-high-speed electrons moving freely
    through a magnetic structure.

10
Tuning mechanism-
  • Electric field-induce index change-
  • An electrical field is applied that changes the
    refractive index of the waveguide.
  • Thermally-induced index change-
  • Heat is applied by a resistive method to the
    tuning section of the laser

11
Types of tunability-
  • Single line tuning-
  • Tuning of the laser output across the narrow
    linewidth can be achieved by placing
    wavelength-selective optical elements into the
    laser's optical cavity  to provide selection of a
    particular longitudinal mode of the cavity.
  • Multi line tuning-
  •  If a dispersive element (e.g. prism) is
    introduced into the optical cavity, tilting of
    the cavity's mirrors can cause tuning of the
    laser.
  • Multi line tuning allows tuning of the laser to a
    number of lines from the ultraviolet and blue thro
    ugh to green wavelengths.

12
  • Narrowband tuning-
  • They can be continuously tuned over a significant
    wavelength range.
  •  If the temperature of the laser is changed, the
    index change of the DBR structure causes a shift
    in its peak reflective wavelength and thus the
    wavelength of the laser.
  • Widely tunable Laser-
  • They have a much larger tunable range.
  • By the use of vernier tunable Bragg mirrors and a
    phase section, a single mode output range of
    gt50nm can be selected

13
How tunable lasers are used?
  • Diagnose diseases in human body-With the use of
  • Optical fibers, laser lights can
  • travel through catheters into
  • the human body to
  • characterize and diagnose
  • diseases.
  • Tunable laser can detect changes in materials
    like buildings ,bridges and airplanes bodies or
    measure the depth of streams , rivers or
    reservoirs

14
Industrial uses-precise time
standards are used everyday in high speed
communications systems, television transmissions,
financial transactions ,power distributions
,terrestrial and space navigation systems
including GPS. Tunable lasers allows the better
accuracy in measuring the natural resonance of
cesium , the definition of time.
Spectroscopy-they are the powerful tool for
reflection and transmission and spectroscopy .
spectroscopy enables themeasurement of even
trace amounts of a particular atom ormolecule
like oxygen ,carbon dioxide or water vapor.
E.Gmonitoring industrial smokestacks or vehicle
exhausts
15
Solar cell-They can be used in the solar cells
in a light beam induced current.
Switching wavelengths-Tunable lasers are
used to switch wavelenghths into metro area
networks . Power consumption-Tunable
lasers can be used in less power consumption.
16
Future applications
  • In Computer Optics- Computer links and
    optical interconnects .
  • Optical Sensing Optical fiber sensing and
    encoders .
  • They can be Used in Bar code readers.
  • In Multi Beam Search Lights.
  • Displays Array light sources ,multi beam search
    lights.
  • Optical cross connects-Used to switch
    wavelengths in metro area networks

17
Economical Impact
  • Today as opto electronics become more commercial,
  • this market generates about 15 billion a year.
  • The world for tunable lasers by 2016 should be
    about
  • 2.8 billion a year.
  • It is making money now-a-days.
  • Future Market Projection- the world market for
    tunable lasers by 2007 should be about 2.4
    billion a year

18
Acknowledgement
I would like to express my special thanks to To
our teacher as well as our friends and Parents
who helped me in doing this Presentation and
without whom this could not be possible.
19
References
  • www.wikipedia.com
  • www.powershow.com
  • www.powerpoint.com

20
Thank u
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