Ultra High Energy Pulsed Nd:YAG Laser - Litron Lasers

L i t r o n U l t r a H i g h E n e r g y L a s e r s
General Features
• Rugged industrial build
• Up to 10J @ 1064nm
• Up to 5J @ 532nm
• Telescopic or Gaussian resonators
• Optional seeder package
• 3rd & 4th harmonics available
• Full RS232 software control
Applications
• Shot peening
• LIBS
• Holography
• Plasma physics
(1) Dedicated 355nm laser models available - please contact Litron.
(2) FWHM.
(3) Rod diameter.
(4) Full angle for 90% of the output energy.
(5) Jitter is measured with respect to the Q-switch trigger input.
(6) Single phase, 208VAC option requires autotransformer to be specified on order.
(7) 50 or 60Hz to be specified on order.
(8) Refer to cooling requirements table.
LPY10J
Ultra High Energy Pulsed Nd:YAG Laser
The LPY10J laser systems offer 10J Q-switched output energies from a
proven design platform. The self-supporting INVAR frame has been utilised
in industrial and scientific applications where robustness and stability are
paramount.
The modular design lends itself to several standard configurations of laser
all using the same underlying laser components. An optional seeder can
provide a narrow linewidth output. Optional harmonic generation units can
provide output up to the 4th harmonic.
Other options available include automated moving mirrors to select different
output wavelengths, energy monitoring and automatic output peaking.
TECHNICAL DATA
Model LPY10J-1 LPY10J-5
Repetition Rate (Hz) 1 5
Output Energy (J) (1)
1064nm 10 10
532nm 5 5
Pulse Length (ns) (2)
1064nm 7-11 7-11
532nm 6-10 6-10
Parameter
System configuration Osc/Pre/Main Amp Osc/Pre/Main Amp
Oscillator configuration Gaussian Gaussian
Beam diameter (mm) (3) 25 25
Beam divergence (mrad) (4) 0.5 0.5
M 2

SYSTEM CONFIGURATION
1
13
1
17
17
8
13
7
7
1. INVAR stabilised optical rail using 8 bar self supporting format.
2. Twin rod, birefringence compensating oscillator.
3. Q-switch assembly.
4. Faraday isolator.
5. Motorised Attenuator.
6. Twin rod, birefringence compensating pre-amplifier.
7. Twin rod, birefringence compensating amplifier.
8. Beam expanding telescope.
9. Power amplifier stage.
10. Beam switching unit for 1064nm only output.
11. Connections for power supply umbilicals.
12. Laser diode pointer assembly.
13. Laser output port.
3
9
3
2
6
4
2
6
8
10
16
Optional accessories
5
14
9
14
16 5
14. Motorised second harmonic generation assembly.
15. Second harmonic separation assembly.
16. Beam dump shutter assembly.
17. Injection Seeder assembly.
4
15
10
15
12
12
11

A
A
B
B
C
C
D
D
E
E
F
F
1
1
1
1
2
SYSTEM REQUIREMENTS
Water Cooling Requirements
2
Max water temp (°C) 20
Nominal flow rate (lpm) 8-10
Min water pressure (Bar [psi]) 2 [30]
Max water pressure (Bar [psi]) 4.5 [65]
External water filtration (Micron) 100
Ext. chiller high pressure bypass (Bar [psi]) 5 [73]
Thermal load 5Hz/1Hz (kW) 10/4
MECHANICAL DATA
Laser Head
LASER
200
Our policy is to improve the design
and specification of our products. The
details given in this document are not
to be regarded as binding.
OK
150
68
750,00
750,00
LUCi Remote Controller
2
75,00
All dimensions shown in mm unless stated.
2
75,00
196,00
196,00
3
3
OUTPUT BEAM
OUTPUT BEAM
3
3
279,25
279,25
4
4
4
System Dimensions
5
Laser Head
mm 750 (W) x 279.25 (H) x 1800 (L)
Inches 29.53 (W) x 11 (H) x 70.86 (L)
Power Supply Unit
mm 605(W) x 1221 (H) x 703 (L)
Inches 23.82 (W) x 48 (H) x 27.68 (L)
5
1800,00
1800,00
Power Supply Unit (2 units required for this system)
4
703 605
6
6
749,75
7
7
SEE NOTES
0162:1
HEAD OFFICE
PB
Litron Lasers Ltd
8 Consul Road
England. in
Rugby
Warwickshire CV21 1PB
Printed
England
Ltd. Lasers
T +44 (0)1788 574444
Litron
F +44 (0)1788 574888
E sales@litron.co.uk www.litronlasers.com
2012 ©
5
5
1800,00
1800,00
6
6
703
1143
(24U)
78
749,75
7
7
SEE NOTES