2. GENERAL DSCRIPTION
A dye laser is a laser which uses an organic dye as the lasing medium,
usually as a liquid solution. It is also known as organic dye lasers
which are produced in liquid gain media.
There are over 200 dye lasers which produce tuneable laser operating
from wavelength ranging from 320 nm to 1200 nm.
It is because of broad emission and gain spectrum of dyes which
leads to tuneability and short pulses.
ONH+
H
N
O
O
Cl-
Rhodamine 6G, 570-610
N
H
O+
N
H
Acridine red, 600-630 nm
O
O
H
OH
H
OH
OH
H
H
H
O
HO
HO O
Esculin, 450-470
3. Typical dye concentration 1024 to 1025 dye molecules/m3
Organic polyatomic molecules withlong chain with conjugated double bonds
Rhodamine, polymemine (700-1500nm), coumarine (320-400nm), xanthene (500-700nm)
and more.
Solvent
Methanol, ethanol, water or ethylene glycol
Additional chemicals added to prevent intersystem crossing and prohibit degration of
the dye.The laser gain medium consists of strongly emitting and absorbing organic
dyes dissolved in solvent.
4. Close-up of a table-top CW dye laser based on Rhodamine 6G, emitting at 580 nm
(yellow). The emitted laser beam is visible as faint yellow lines between the yellow
window (center) and the yellow optics (upper-right). The orange dye-solution enters the
laser from the left and exits to the right, and is pumped by a 514 nm (blue-green) beam
from an argon laser. The pump laser can be seen entering the dye jet, beneath the
yellow window.
7. LASER PUMPED PULSED
TUNEABLE LASERSThis class of lasers produce a tuneable ultranarrow frequency pulsed
laser output over wavelength ranging from 190 um to 4.5 um.
The output energies range from tens to hundreds of milijoules.
The pump beam is split into several separate beams, with one beam
used to pump a narrow frequency output tuneable oscillator.
The other beams are used to side pump or end pump a series of dye
amplifiers.
8. FLASHLAMP PULSED DYE LASER
The dye laser is surrounded by a coaxial cylindrically shaped flash
lamp.
Provision for water cooling is made between flash lamp and dye cell.
This laser produces 5J per second in 1.5 us pulse duration or a peak
power of over 3 MW per pulse.
The laser has an input power of 1000J and capable of operating at a
0.5 Hz repetition rate.
Uses RH6G dye and is tuned to operate at 585-nm wavelength for
medical applications.
9.
10. MODE LOCKED LASERS
This type of configuration gives femtosecond dye laser pulses, and
must be designed with odd number of beam waists within the cavity.
The optical path length between the two dye jets is one fourth of the
optical path around the entire ring.
There are tow counter propagating pulses within the cavity , this
ensures that both the pulses will have equal properties by allowing
the gain recovery time to be same for each.
Also, Maintaining the critical dimension or geometry of such a cavity
is important.
12. Tunable in a wide range of wavelengths
Research oriented program in Astronomy
Pollution monitoring
Studies of atomic physics, photochemistry, spectroscopy in solids
Isotopes separation(uranium)
Medical –shatter kidney stones or gall bladder,remove birthmarks.
Application