[EKSPLA]
PL2250 series

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Description

PL2250 series lasers set a new standard in high pulse energy picosecond lasers. Their innovative and cost-effective design improves laser reliability and reduces running and maintenance costs.

INNOVATIVE DESIGN

The heart of the system is a diode pumped solid state (DPSS) master oscillator placed in a hermetically sealed monolithic block. The flashlamp pumped regenerative amplifier is replaced by an innovative diode pumped regenerative amplifier. Diode pumping results in negligible thermal lensing, which allows operation of the regenerative amplifier at variable repetition rates, as well as improved long-term stability and maintenance-free operation.

The optimized multiple-pass power amplifier is flashlamp pumped and is optimized for efficient amplification of pulse while maintaining a near Gaussian beam profile and low wavefront distortion. The output pulse energy can be adjusted in approximately 1% steps, at the same time as pulse-to-pulse energy stability remains less than 0.8% rms at 1064 nm. Angle‑tuned KD*P and KDP crystals mounted in thermostabilised ovens are used for second, third and fourth harmonic generation. Harmonics separators ensure the high spectral purity of each harmonic directed to different output ports.

Built-in energy monitors continuously monitor output pulse energy. Data from the energy monitor can be seen on the remote keypad or PC monitor. The laser provides several triggering pulses for synchronization of the customer‘s equipment. The lead or delay of the triggering pulse can be adjusted in 0.25 ns steps from the control pad or PC. Up to 1000 μs lead of triggering pulse is available as a pretrigger option.

Precise pulse energy control, excellent short-term and long-term stability, and up to 50 Hz repetition rate makes PL2250 series lasers an excellent choice for many demanding scientific applications.

SIMPLE AND CONVENIENT LASER CONTROL

For customer convenience the laser can be controlled from a user-friendly remote control pad or USB interface. The remote pad allows easy control of all parameters and features a backlit display that is easy to read even while wearing laser safety eyewear. Alternatively, the laser can be controlled from a personal computer with supplied software for a Windows™ operating system. LabVIEW™ drivers are supplied as well.

Feature

  • Hermetically sealed DPSS master oscillator
  • Diode pumped regenerative amplifier
  • Flashlamp pumped power amplifier producing up to 100 mJper pulse at 1064 nm
  • 30 ps pulse duration (20 ps optional)
  • Excellent pulse duration stability
  • Up to 50 Hz repetition rate
  • Streak camera triggering pulse with <10 ps rms jitter
  • Excellent beam pointing stability
  • Thermo stabilized second, third or fourth harmonic generator options
  • PC control via USB and LabVIEW™ drivers (RS232 control is optional)
  • Remote control via keypad

Related Applications

  • Time resolved spectroscopy
  • SFG/SHG spectroscopy
  • Nonlinear spectroscopy
  • OPG pumping
  • Remote laser sensing
  • Satellite ranging
  • Other spectroscopic and nonlinear optics experiments

Performance

Specification
ModelPL2250PL2251PL2251APL2251BPL2251C
Main specifications 1)
Pulse energy
    at 1064 nm 1 mJ 30 mJ 50 mJ 2) 80 mJ 2) 100 mJ
    at 532 nm 3) 0.45 mJ 15 mJ 25 mJ 40 mJ 50 mJ
    at 355 nm 4) 0.3 mJ 10 mJ 15 mJ 24 mJ 30 mJ
    at 266 nm 5) 0.15 mJ 3 mJ 7 mJ 10 mJ 12 mJ
    at 213 nm 6) n/a inquire inquire inquire inquire
Pulse energy stability, (Std. Dev.) 7)
    at 1064 nm < 0.2 % < 0.8 %
    at 532 nm < 0.4 % <1.0 %
    at 355 nm < 0.5 % < 1.1 %
    at 266 nm < 0.5 % < 1.2 %
Pulse duration (FWHM) 8) 30 ± 3 ps
Pulse duration stability 9) ± 1.0 ps
Repetition rate 0-50 Hz 50 or 10 Hz 50, 20 or 10 Hz 20 or 10 Hz 10 Hz
Polarization linear, vertical, >99 %
Pre-pulse contrast >200:1 (peak-to-peak with respect to residual pulses)
Optical pulse jitter internal/external
    Internal triggering regime 10) <50 ps (StdDev) with respect to TRIG1 OUT pulse
    External triggering regime 11) ~3 ns (StdDev) with respect to SYNC IN pulse
SYNC OUT pulse jitter 10) -500 ... 50 ns
SYNC OUT pulse delay 12) -500 ... 50 ns
Beam divergence 13) < 1.5 mrad < 0.5 mrad
Beam pointing stability 14) ≤ 10 µrad ≤ 50 µrad
Beam diameter 15) ~2.5 mm ~ 8 mm ~ 8 mm ~10 mm ~12 mm
Typical warm-up time 5 min 30 min
Physical characteristics
Laser head size (W × L × H) 456×1031×249 mm ±3 mm 456×1233×249 mm ±3 mm (for PL2251A, B with harmonics and C models) 
456×1031×249 mm ±3 mm (for PL2251A, B models without harmonics)
Electric cabinet size (W × L × H) 12 V DC power adapter,
85×170×41 mm ±3 mm
550×600×550 ±3 mm (19″ standard, MR-9)
Umbilical length 2.5 m
Operating requirements
Water consumption (max 20 °C ) air cooled water cooled, water consumption (max. 20 °C), <8 l/min, 2 bar
Room temperature 22 ± 2 °C
Relative humidity 20 – 80 % (non-condensing)
Power requirements 16) 110 – 240 V AC, 50/60 Hz single phase, 200 – 240 V AC, 16 A, 50/60 Hz
Power 17) < 0.15 kVA lt; 1.5 kVA < 1.5 kVA < 2.5 kVA < 2.5 kVA
  1. Due to continuous improvement, all specifications are subject to change without notice. Parameters marked typical are not specifications. They are indications of typical performance and will vary with each unit we manufacture. Unless stated otherwise, all specifications are measured at 1064 nm.
  2. PL2251A-50 has 40 mJ at 1064 nm, PL2251B-20 has 70 mJ at 1064 nm output energy. Inquire for these energies at other wavelengths.
  3. For -SH option. Outputs are not simultaneous. Please inquire for pulse energies at other wavelengths.
  4. For -TH option. Outputs are not simultaneous. Please inquire for pulse energies at other wavelengths.
  5. For -FH option. Outputs are not simultaneous. Please inquire for pulse energies at other wavelengths.
  6. For PL2250 series laser with custom -FiH option.
  7. Averaged from pulses, emitted during 30 sec time interval.
  8. FWHM. Inquire for optional pulse durations in 20 – 90 ps range. Pulse energy specifications may differ from indicated here.
  9. Measured over 1 hour period when ambient temperature variation is less than ±1 °C.
  10. With respect to TRIG1 OUT pulse. <10 ps jitter is provided with PRETRIG option.
  11. With respect to SYNC IN pulse.
  12. TRIG1 OUT lead or delay can be adjusted with 0.25 ns steps in specified range.
  13. Average of X- and Y-plane full angle divergence values measured at the 1/e² level at 1064 nm.
  14. Beam pointing stability is evaluated from fluctuations of beam centroid position in the far field.
  15. Beam diameter is measured at 1064 nm at the 1/e² point.
  16. Three phase 208 or 380 VAC mains are required for 50 Hz versions.
  17. For 10 Hz version.

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