Ultra High Energy Pulsed Nd:YAG Laser - Litron Lasers
Ultra High Energy Pulsed Nd:YAG Laser - Litron Lasers
Ultra High Energy Pulsed Nd:YAG Laser - Litron Lasers
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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<br />
General Features<br />
• Rugged industrial build<br />
• Up to 10J @ 1064nm<br />
• Up to 5J @ 532nm<br />
• Telescopic or Gaussian resonators<br />
• Optional seeder package<br />
• 3rd & 4th harmonics available<br />
• Full RS232 software control<br />
Applications<br />
• Shot peening<br />
• LIBS<br />
• Holography<br />
• Plasma physics<br />
(1) Dedicated 355nm laser models available - please contact <strong>Litron</strong>.<br />
(2) FWHM.<br />
(3) Rod diameter.<br />
(4) Full angle for 90% of the output energy.<br />
(5) Jitter is measured with respect to the Q-switch trigger input.<br />
(6) Single phase, 208VAC option requires autotransformer to be specified on order.<br />
(7) 50 or 60Hz to be specified on order.<br />
(8) Refer to cooling requirements table.<br />
LPY10J<br />
<strong>Ultra</strong> <strong>High</strong> <strong>Energy</strong> <strong>Pulsed</strong> <strong>Nd</strong>:<strong>YAG</strong> <strong>Laser</strong><br />
The LPY10J laser systems offer 10J Q-switched output energies from a<br />
proven design platform. The self-supporting INVAR frame has been utilised<br />
in industrial and scientific applications where robustness and stability are<br />
paramount.<br />
The modular design lends itself to several standard configurations of laser<br />
all using the same underlying laser components. An optional seeder can<br />
provide a narrow linewidth output. Optional harmonic generation units can<br />
provide output up to the 4th harmonic.<br />
Other options available include automated moving mirrors to select different<br />
output wavelengths, energy monitoring and automatic output peaking.<br />
TECHNICAL DATA<br />
Model LPY10J-1 LPY10J-5<br />
Repetition Rate (Hz) 1 5<br />
Output <strong>Energy</strong> (J) (1)<br />
1064nm 10 10<br />
532nm 5 5<br />
Pulse Length (ns) (2)<br />
1064nm 7-11 7-11<br />
532nm 6-10 6-10<br />
Parameter<br />
System configuration Osc/Pre/Main Amp Osc/Pre/Main Amp<br />
Oscillator configuration Gaussian Gaussian<br />
Beam diameter (mm) (3) 25 25<br />
Beam divergence (mrad) (4) 0.5 0.5<br />
M 2
SYSTEM CONFIGURATION<br />
1<br />
13<br />
1<br />
17<br />
17<br />
8<br />
13<br />
7<br />
7<br />
1. INVAR stabilised optical rail using 8 bar self supporting format.<br />
2. Twin rod, birefringence compensating oscillator.<br />
3. Q-switch assembly.<br />
4. Faraday isolator.<br />
5. Motorised Attenuator.<br />
6. Twin rod, birefringence compensating pre-amplifier.<br />
7. Twin rod, birefringence compensating amplifier.<br />
8. Beam expanding telescope.<br />
9. Power amplifier stage.<br />
10. Beam switching unit for 1064nm only output.<br />
11. Connections for power supply umbilicals.<br />
12. <strong>Laser</strong> diode pointer assembly.<br />
13. <strong>Laser</strong> output port.<br />
3<br />
9<br />
3<br />
2<br />
6<br />
4<br />
2<br />
6<br />
8<br />
10<br />
16<br />
Optional accessories<br />
5<br />
14<br />
9<br />
14<br />
16 5<br />
14. Motorised second harmonic generation assembly.<br />
15. Second harmonic separation assembly.<br />
16. Beam dump shutter assembly.<br />
17. Injection Seeder assembly.<br />
4<br />
15<br />
10<br />
15<br />
12<br />
12<br />
11
A<br />
A<br />
B<br />
B<br />
C<br />
C<br />
D<br />
D<br />
E<br />
E<br />
F<br />
F<br />
1<br />
1<br />
1<br />
1<br />
2<br />
SYSTEM REQUIREMENTS<br />
Water Cooling Requirements<br />
2<br />
Max water temp (°C) 20<br />
Nominal flow rate (lpm) 8-10<br />
Min water pressure (Bar [psi]) 2 [30]<br />
Max water pressure (Bar [psi]) 4.5 [65]<br />
External water filtration (Micron) 100<br />
Ext. chiller high pressure bypass (Bar [psi]) 5 [73]<br />
Thermal load 5Hz/1Hz (kW) 10/4<br />
MECHANICAL DATA<br />
<strong>Laser</strong> Head<br />
LASER<br />
200<br />
Our policy is to improve the design<br />
and specification of our products. The<br />
details given in this document are not<br />
to be regarded as binding.<br />
OK<br />
150<br />
68<br />
750,00<br />
750,00<br />
LUCi Remote Controller<br />
2<br />
75,00<br />
All dimensions shown in mm unless stated.<br />
2<br />
75,00<br />
196,00<br />
196,00<br />
3<br />
3<br />
OUTPUT BEAM<br />
OUTPUT BEAM<br />
3<br />
3<br />
279,25<br />
279,25<br />
4<br />
4<br />
4<br />
System Dimensions<br />
5<br />
<strong>Laser</strong> Head<br />
mm 750 (W) x 279.25 (H) x 1800 (L)<br />
Inches 29.53 (W) x 11 (H) x 70.86 (L)<br />
Power Supply Unit<br />
mm 605(W) x 1221 (H) x 703 (L)<br />
Inches 23.82 (W) x 48 (H) x 27.68 (L)<br />
5<br />
1800,00<br />
1800,00<br />
Power Supply Unit (2 units required for this system)<br />
4<br />
703 605<br />
6<br />
6<br />
749,75<br />
7<br />
7<br />
SEE NOTES<br />
0162:1<br />
HEAD OFFICE<br />
PB<br />
<strong>Litron</strong> <strong>Laser</strong>s Ltd<br />
8 Consul Road<br />
England. in<br />
Rugby<br />
Warwickshire CV21 1PB<br />
Printed<br />
England<br />
Ltd. <strong>Laser</strong>s<br />
T +44 (0)1788 574444<br />
<strong>Litron</strong><br />
F +44 (0)1788 574888<br />
E sales@litron.co.uk www.litronlasers.com<br />
2012 ©<br />
5<br />
5<br />
1800,00<br />
1800,00<br />
6<br />
6<br />
703<br />
1143<br />
(24U)<br />
78<br />
749,75<br />
7<br />
7<br />
SEE NOTES