WITH UP TO 1 J OF ENERGY PER PULSE
- Repetition rates from 1 to 50 Hz and energies in excess of 1000 mJ/pulse
- Fast Digital Signal Processor (DSP) electronics
- Computer interface and versatile GUI
- Divide-by-integer variable rep rate
Quanta-Ray Lab Series Pulsed Nd:YAG Lasers
Quanta-Ray™ Nd:YAG lasers are recognized world wide for their unsurpassed performance, reliability and quality. The Quanta-Ray Lab Series are oscillator-only YAG lasers featuring a dual rod and pump chamber configuration. This proprietary design provides compensation for thermally-induced birefringence in the YAG rod, providing an output beam quality that is unique on the market.
Newly incorporated modern digital signal processing (DSP) electronics into all Quanta-Ray YAG lasers provide a number of advantages for users.
- A direct digital interface and GUI enhances the reliability and convenience of using Quanta-Ray Lab, maximizing the time spent doing experiments.
- Variable repetition rates are now possible with digital control. This digital control lets the user set the rep rate to integer-fractions of the lamp pulse frequency. Thus, the thermal steady-state in the resonator is maintained by a constant flash lamp frequency, but the rep rate of the light output can be varied.
The traditional features and advantages that have made Quanta-Ray the world's leading pulsed Nd:YAG laser are still integral to our design philosophy for laser quality. These features include dual-rod oscillators, gold-coated elliptical pump chambers, internal sealed beam path and high-damage-threshold optics from Spectra-Physics’ advanced coatings lab.
|Pump source for OPOs|
|Pump source for Ti:Sapphire lasers|
|Pump source for dye lasers|
|Repetition Rate||10 Hz||30 Hz||50 Hz||10 Hz||30 Hz||50 Hz||10 Hz||30 Hz||50 Hz||10 Hz4||30 Hz||50 Hz||100 Hz|
|1064 nm||450 mJ||275 mJ||200 mJ||650 mJ||500 mJ||300 mJ||850 mJ||700 mJ||550 mJ||1000 mJ||800 mJ||600 mJ||325 mJ|
|532 nm||200 mJ||100 mJ||70 mJ||300 mJ||200 mJ||100 mJ||450 mJ||325 mJ||210 mJ||500 mJ||400 mJ||250 mJ||120 mJ|
|355 nm23||90 mJ||40 mJ||30 mJ||150 mJ||100 mJ||40 mJ||220 mJ||175 mJ||100 mJ||250 mJ||200 mJ||100 mJ||50 mJ|
|EEO-355 nm3. 23||--||--||--||--||--||--||240 mJ||--||--||300 mJ||--||--||--|
|266 nm||55 mJ||25 mJ||15 mJ||75 mJ||35 mJ||25 mJ||100 mJ||65 mJ||30 mJ||120 mJ||65 mJ||25 mJ||20 mJ|
|Wavelength||Pulse Width5||Short Term Energy Stability6||Long Term Power Drift7|
|1064 nm||8–12 ns||±2%||<3%|
|532 nm||1–2 ns <1064 nm||±3%||<5%|
|355 nm||2–3 ns <1064 nm||±4%||<6%|
|266 nm||3–4 ns <1064 nm||±8%||<10%|
|Spatial Mode Profile8||Standard Fit||ESM Fit9|
|Near Field (1 m)||>70%||Contact Spectra-Physics|
|Far Field (∞)||>95%||Contact Spectra-Physics|
|Beam Diameter11||<10 mm|
|Beam Pointing Stability12||<±50 µrad|
|Beam Divergence13||<0.5 mrad|
|Lamp Lifetimes14||30 million pulses|
|Injection Seeded15||<0.003 cm-1|
|Timing Jitter16||<0.5 ns|
|Quanta-Ray Pro||Quanta-Ray Lab||Quanta-Ray INDI|
|Water Service17, 18||10 Hz – 3.8 liters/min (1.0 US gallons/min)
30 Hz and 50 Hz – 7.6 liters/min (2.0 US gallons/min)
|10 Hz, 30 Hz and 50 Hz – 7.6 liters/min (2.0 US gallons/min)||N/A|
|Electrical Service22||10/30/50 Hz: <30 A/<40 A/<50 A||10/30/50 Hz: <30 A/<40 A/<50 A||10/20 Hz: <15 A/<20 A|
|Voltage19||190–260 V, single phase, 50/60 Hz|
|Umbilical Length||3 m (10 ft)|
|Remote Cord Length||3 m (10 ft)|
|Weight||Laser Head 84 kg (185 lb)
Power Supply 114 kg (250 lb)
|Laser Head 55 kg (120 lb)
Power Supply 68 kg (150 lb)
|Laser Head 11 kg (25 lb) (IR); 15 kg (34 lb) (HG)
Power Supply 60 kg (132 lb)
|Power Supply Dimensions (L x W x H)||76.99 x 64.00 x 75.74 cm
(30.3 x 25.2 x 29.8 in)
|76.9 x 63.9 x 50.2 cm
(30.31 x 25.18 x 19.75 in)
|64.7 x 33.4 x 55.4 cm
(25.46 x 13.13 x 21.81 in)
1. All specifications, unless otherwise stated, are for Q-switched 1064 nm operation and are subject to change without notice.
2. Harmonic energies are specified after separation using dichroic mirror pairs. It is also assumed that polarization of measured harmonic is in vertical polarization, making an "S" polarized reflection from dichroics. 532 nm energies are specified using Type II SHG. 355 nm energies are specified using Type II doubler. Using a Type I doubler in tripling process will result in a 10% increase in published 355 nm specification EXCEPT for the following models: INDI, Lab-130-10, Lab-190-10, Pro-250-10, Pro-230-10.
3. High UV output option designed for OPO pumping, including injection seeder, harmonic generator, 355 nm dichroic separators, and beam dump.
4. The Lab-190-10 is configured on a Quanta-Ray Pro platform. This allows for BeamLok in this model. For laser head size, please refer to Quanta-Ray Pro specifications.
5. Normal full width half maximum (FWHM) pulse width 8-10 ns for all Lab series lasers except Lab 130-10 and Lab 190-10 versions, which is 9-12 ns. FWHM for Pro series lasers is 10-12 ns except for Pro 270-10, Pro 290-10, and Pro 350-10 versions which is 8-10 ns. The optional short pulse mode reduces the 1064 nm pulse width to approximately 2.5 ns and reduces the energy by approximately 10%. (Short pulse mode available on seeded versions on special request only).
6. Pulse-to-pulse stability for >99% of pulses, measured over a 1 hour period.
7. Over 8 hour period with temperature variations of <±3°C.
8. Near field spatial profiles measured <1 m from laser using commercially available beam diagnostic system. 70% refers to correlation between actual beam profile and least squares best fit Gaussian profile. Far field profiles are measured at focal plane of a 2 m focal length lens and measured between FWHM points. Specifications based on 10 Hz lasers.
9. Enhanced spatial mode options can be tailored to meet your application needs. To obtain >85% Gaussian fits, energy can be reduced by 50%. Contact Spectra-Physics to establish specifications.
10. Refers to maximum deviation from best fit Gaussian profile measured in near field (1 m) between FWHM points.
11. Actual beam diameter will vary depending on laser configuration.
12. Long term average pointing drift after warm up, over 8 hours ±-3°C. Shot-to-shot pointing stability <±25 µrad. Angle measured is polar angle.
13. Full angle measured at FWHM points.
14. IR energy within 10% of specified value.
15. Insertion losses for systems using Model 6350 injection seeder are <15% at 1064 nm, 532 nm, and 266 nm.
16. RMS jitter from Q-switched sync pulse at 10 Hz. Jitter is =1 ns RMS when using Model 6350 injection seeder at 10 Hz and =1.5 ns at 30 Hz. INDI cannot be seeded.
17. INDI, Lab 130-10 and Lab 150-10 units are air cooled as standard. Water-cooled versions of INDI require WAT 50 (3.8 liters/min or 1 US gal/min). Water-cooled versions of Lab 130-10 and Lab 150-10 require PS101 (3.8 liters/min or 1.0 US gal/min). All seeded lasers must be water cooled.
18. Minimum pressure 40 psi. Maximum pressure 60 psi.
19. Input transformer has taps at 190, 200, 210, 220, 230, 240, 250, and 260 V. Once tap is chosen, actual input voltage differing by more than ±10% may affect operation of laser.
20. Measured on request.
21. Fit to flat-top central 80% of beam near field.
22. Max current draw of laser.
23. Addition of LBP option for pumping Scan Series OPOs can result in a 5% loss of 355 nm energy.
Pulsed Nd:YAG with up to 2.5 J of energy per pulse
Pulsed Nd:YAG with up to 450 mJ of energy per pulse
Entry level narrow linewidth nanosecond dye lasers
Amplified narrow linewidth nanosecond dye lasers
Higher energy amplified narrow linewidth nanosecond dye lasers
Low cost, entry level nanosecond OPOs
Versatile nanosecond OPOs
Premium nanosecond OPOs
Frequency doubler for 355 nm and 532 nm pumped OPOs
Low power thermal sensors – 20 mW to 50 W