Industrial Lasers femtosecond / picosecond / nanosecond
Tailored for your applications
UV-VIS-IR wavelength options
Build for 24/7 operation
Low 500 µm ownership costs
500 µm 1 mm
Samples courtesy of FTMC 2021 Industrial Lasers femtosecond / picosecond / nanosecond
SPECIFICATIONS AT A GLANCE Not all output specifications may be available simultaneously. Please refer to the catalog page for exact specifications and available options.
Available output Pulse Max output Max repetition Max pulse Model Page wavelengths duration 1) power 1) rate energy 1)
FEMTOSECOND 1030 ± 2 nm 300 fs – 5 ps FemtoLux 3 3 W 5 MHz 3 µJ 3 515 ± 1 nm tunable
PICOSECOND 1064 nm Atlantic 5 532 nm 10 ± 3 ps 5 W 1 MHz 30 µJ 8 355 nm 1064 nm Atlantic 532 nm 10 ± 3 ps 80 W 1 MHz 200 µJ 14 355 nm
NANOSECOND 1064 nm 532 nm NL200 355 nm < 10 ns 4 W 2.5 kHz 4.0 mJ 22 266 nm 213 nm 1064 nm NL230 532 nm 2 – 4 ns 15 W 100 Hz 190 mJ 25 355 nm
1) At fundamental wavelength. Due to the constant product improvements, EKSPLA reserves its right to change specifications without advance notice. For latest information visit www.ekspla.com.
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Material processing samples
GLASS MILLING GLASS DRILLING POLYAMIDE DRILLING
Surface chipping <100 µm, sidewall Surface chipping <100 µm, sidewall Drilling of 65 µm holes in 0.8 mm PI roughness <2 µm. Courtesy of FTMC. roughness <2 µm. Courtesy of FTMC.
TEFLON ABLATION NICKEL ABLATION COPPER ABLATION
Teflon (PTFE) ablation. Courtesy of FTMC. Ablation of 50 μm nickel layer from a Copper removal from PCB with down to ceramic substrate. <20 µm resolution.
SURFACE STRUCTURING STAINLESS STEEL MARKING COPPER ABLATION
“Shark skin” surface structuring. Courtesy Highly resistant stainless steel black Surface roughness of 0.2 µm. Courtesy of of FTMC. marking Leibnitz IOM.
PHOTOPOLYMERIZATION SILICON SCRIBING COPPER DEEP 3D ENGRAVING
Courtesy of Workshop of Photonics. Courtesy of FTMC. Courtesy of FTMC.
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Microjoule Class Femtosecond FemtoLux 3 Industrial Lasers
FEATURES
▶ 300 fs … 5 ps tunable pulse duration
▶ Output power 3 W at 1030 nm or 1.5 W at 515 nm
▶ Up to 3 μJ/pulse and 10 μJ/burst (at 1030 nm)
▶ Up to 1.5 µJ/pulse and 5 µJ/burst (at 515 nm)
▶ Excellent beam quality M² < 1.2
▶ Versatile laser control and syncronisation capabilities
▶ Up to 5 MHz pulse repetition rate
▶ Smart triggering for synchronous operation with polygon scanner and PSO FemtoLux 3 is a modern femtosecond With burst mode enabled, FemtoLux 3 fiber laser aimed for both R&D use can generate bursts of pulses with ▶ Instant amplitude control
and industrial integration. Tunable energy above 10 μJ with instant burst ▶ Passive air cooling of the laser pulse duration in a range of 300 fs – shape control which can significantly head 5 ps, adjustable pulse repetition rate improve the efficiency of some ▶ 24/7 operation up to 5 MHz and adjustable pulse processes. energy up to 3 μJ allows optimization Having a rigid, compact, passive of laser parameters for the desired air-cooled laser head and the application. These include marking possibility to control the laser from and volume structuring of transparent a wireless tablet, FemtoLux 3 can be APPLICATIONS
materials, photopolymerization, integrated with different equipment, ▶ Inner volume marking of biological imaging, nonlinear be it laser equipment for material transparent materials microscopy and many others. To micro-processing, microscopy or any ▶ Marking and structuring expand the scope of applications even other research equipment. ▶ Micromachining of brittle further this laser can be equipped with materials a second harmonics module. ▶ Photopolymerization
▶ Ophthalmologic surgery
▶ Biological Imaging
▶ Pumping of femtosecond OPO/OPA
▶ Microscopy
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SPECIFICATIONS 1) Model FemtoLux 3
MAIN SPECIFICATIONS Central wavelength Fundamental 1030 ± 2 nm With second harmonic option 515 ± 1 nm Minimal pulse duration (FWHM) at 1030 nm < 300 fs (typical ~230 fs) Pulse duration tuning range 300 fs – 5 ps Maximal average output power 2) at 1030 nm > 3 W at 515 nm > 1.5 W Power long term stability (Std. dev.) 3) ≤ 0.5 % Maximal pulse energy 2) at 1030 nm > 3 µJ at 515 nm > 1.5 µJ Pulse energy stability (Std. dev.) 4) < 2 % 5) Laser pulse repetition rate (PRRL) range 1 – 5 MHz
Pulse repetition rate after pulse picker PRR = PRRL / N, N=1, 2, 3, … , min 10 kHz External pulse gating via TTL input Burst mode 6) 1 – 10 pulses Max burst energy at 1030 nm > 10 µJ at 515 nm > 5 µJ Instant amplitude control via analog input Power attenuation 0 – 100 % from remote control application or via analog input Polarization orientation linear, vertical Polarization extinction ratio >1000:1 M2 < 1.2 Beam divergence (full angle) <1.0 mrad Beam circularity (far field) > 0.85 Beam pointing stability (pk-to-pk) 7) < 30 µrad Beam diameter (1/e2) at 20 cm distance from laser aperture at 1030 nm 2.0 ± 0.3 mm at 515 nm 1.0 ± 0.2 mm
OPERATING REQUIREMENTS Mains requirements 100 – 240 V AC, single phase 47 – 63 Hz Maximal power consumption < 500 W Operating ambient temperature 15 – 30 °C Relative humidity 10 – 80 % (non-condensing) Air contamination level ISO 9 (room air) or better
PHYSICAL CHARACTERISTICS Cooling of the laser head air, passive Laser head size (L×W×H) at 1030 ± 2 nm 464 × 363 × 129 mm at 515 ± 1 nm 620 × 363 × 129 mm Power supply unit size (L×W×H) 449 × 436 × 140 mm (stand-alone) or 483 × 436 × 140 mm (19" rack mountable) Umbilical length 5 m
CLASSIFICATION Classification according EN60825-1 CLASS 4 laser product
1) 4) Due to continuous improvement, all specifications are At 1 MHz PRRL under constant environmental conditions. subject to change without notice. Parameters marked 5) When pulse picker is set to transmit every pulse. typical are not specifications. They are indications of 6) DANGER typical performance and will vary with each unit we Pulse separation inside the burst is about 20 ns. 7) VISIBLE AND/OR INVISIBLE LASER RADIATION manufacture. Beam pointing stability is evaluated as a movement of the AVOID EYE OR SKIN EXPOSURE TO DIRECT REFLECTED OR SCATTERED RADIATION 2) beam centroid in the focal plane of a focusing element. See typical power and energy curves for other pulse Yb:Fiber 1030, 515 nm Max. 10 µJ, power 3 W, pulse 300 fs repetition rates at Fig 1., Fig 2. and Fig 4. CLASS IV LASER PRODUCT 3) At 1 MHz PRRL during 24 h of operation after warm-up Note: It is recommended to use clean air generator with under constant environmental conditions. FemtoLux 3-GR in order to ensure it‘s performance stability.
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PERFORMANCE
4.0 4.0 2.0 2.0
3.5 3.5
ergy, µJ ergy, en Pulse
W 3.0 µJ energy, Pulse 3.0 W 1.5 1.5
2.5 2.5
2.0 2.0 1.0 1.0
1.5 1.5
Average power, 1.0 1.0 Average power, 0.5 0.5
0.5 0.5
0.0 0.0 0.0 0.0 0312 45 0312 45 Repetition rate, MHz Repetition rate, MHz
Fig 1. Typical dependence of output power and Fig 2. Typical dependence of output power and pulse energy of FemtoLux 3 laser at 1030 nm pulse energy of FemtoLux 3-GR laser at 515 nm when changing internal repetition rate of the on pulse repetition rate laser
3.5 4.0
1.0 3.5
τpulse = 230 fs 3.0 Puls W 3.0 0.8 2.5
.
2.5 energy e 2.0 0.6 2.0 1.5 0.4 1.5 µJ ,
Intensity, a.u
Average power, 1.0 1.0 0.2 0.5 0.5
0.0 0.0 0.0 -2.5 -2.0 -1.5 -1.0 -0.5 0 0.51.0 1.522.0 .5 000.2 0.4 .6 0.8 1.0 Delay, ps Repetition rate, MHz
Fig 3. Typical FemtoLux 3 laser (at 1030 nm) Fig 4. Typical dependence of output power and pulse output pulse autocorrelation function at 3 μJ energy of FemtoLux 3 laser at 1030 nm when pulse energy. Calculated pulse duration is 230 fs repetition rate is reduced by pulse picker. Internal repetition rate of the laser in this case is 1 MHz
45 4.0
40 104 3.5
35 3.0
°C
Power, Power, 2.5 RMS = 0.3 % 30 102 W 2.0
25 %
Power, 1.5 100 Temperature, 20 1.0 15 0.5 98 10 0.0 0151025 025 0250 100 150 200 50 300 350 Time, h Time, h Fig 5. Average output power dependance on Fig 6. Typical long term average output power ambient temperature at 1030 nm stability of FemtoLux 3 laser at 1030 nm under constant environmental conditions
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0.6
0.8 M² @ 1030 nm 0.5 X : M² = 1.08 M² @ 515 nm Y : M² = 1.05 X : M² = 1.08 0.4 0.6 Y : M² = 1.07
0.3
ω, mm 0.4 ω, mm 0.2
0.1 0.2 0.0 -100 -50 0 50 100 -100 -50 0 50 100 Z, mm Z, mm Fig 7. Typical M² measurement of FemtoLux 3 laser
-150 -100 -50 0 50 100 150 Fig 8. Typical beam profiles along propagation axis of FemtoLux 3 series laser
REMOTE CONTROL APPLICATION
Fig 9. Example of FemtoLux 3 remote control application
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DRAWINGS
FemtoLux 3 129 112 80
463.5 300 264 294 304. 8 362. 3
400 406.4
Fig 11. Outline drawings of FemtoLux 3 laser head
FemtoLux 3-GR 129 112 80
620 80 264 294 300 362. 3 304. 8 80
400 406.4
Fig 12. Outline drawings of FemtoLux 3-GR laser head with second harmonic option
449 436 483 436 140 133 133 140
449 449 436 436
Fig 13. Outline drawings of FemtoLux 3 Fig 14. Outline drawings of FemtoLux 3 stand-alone control unit 19" rack mountable control unit
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Industrial Compact Air Cooled Atlantic 5 Picosecond Laser
FEATURES
▶ Up to 5 W at 1064 nm
▶ Optional 532 nm and 355 nm wavelengths (could be all 3 electronically switchable wavelengths)
▶ Up to 1 MHz repetition rate
▶ Up to 30 µJ pulse energy
▶ Short pulse duration 10 ps
▶ Excellent beam quality M²<1.3
▶ Air cooled
▶ Burst mode
▶ Versatile laser control and synchronisation capabilities
MATERIALS ▶ Smart triggering for synchronous operation with polygon scanner Various metals PET, PP, PI ▶ ▶ and PSO Brittle materials, including glass, Silicone ▶ ▶ Compact, sealed and rugged ceramics, sapphire and PCD ▶ ▶ PCB design ▶ Silicon Solar cells ▶ ▶ Low cost of ownership
Atlantic 5 series air-cooled lasers are Atlantic 5 series lasers have a versatile among the most compact picosecond synchronisation capability with industrial lasers. This series was external equipment, including PSO APPLICATIONS
designed as a versatile tool for a (position synchronized output) which ▶ Black marking, diffraction variety of industrial applications. makes integration with any laser beam grating marking Having the capability to control equipment seamless and easy. ▶ Patterning electronically switch IR, VIS and UV Superior beam quality allows easy Micromachining outputs as well as featuring 10 ps focusing of the laser beam into the ▶ Solar cells CIGS scribing pulse duration, Atlantic 5 series lasers smallest spot size at various working ▶
offer minimized thermal damage to distances and enables processing of ▶ PCB drilling and tracing different materials. This is beneficial for practically any material. ▶ Drilling a variety of applications such as black Atlantic 5 series lasers can also ▶ Cutting marking, patterning, micromachining, work in bursts, with 25 ns interval Structuring PCB drilling and tracing, solar cell CIGS between pulses, within a burst. This is ▶ scribing and many others. very beneficial for applications such ▶ Ablation
as increasing material removal rate in ▶ Dicing laser ablation.
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To increase reliability and assure optimized and compact layout, PC long-term stable operation in controlled operation, a built-in industrial environments, the optical self-diagnostic system and advanced components are installed in a sealed, status reporting. robust, precisely machined monolithic The Atlantic 5 series lasers do not and compact aluminium block. require installation to be performed Designed for robust, low maintenance by a qualified laser engineer and operation, Atlantic 5 series lasers are designed to be a low lifetime offer maximum reliability due to an ownership cost solution.
TYPICAL VIEW OF ATLANTIC 5 SERIES LASER HEADS
Typical view of Atlantic 5 laser head Typical view of Atlantic 5 laser head with a single 1064 nm output with two and three outputs
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SPECIFICATIONS 1) Model Atlantic 5
GENERAL SPECIFICATIONS Central wavelength Fundamental 1064 nm With second harmonics option 532 nm (optional 1064 nm output) With third harmonics option 355 nm (optional 1064 nm and/or 532 nm outputs)
2) Laser pulse repetition rate (PRRL) range 100 – 1000 kHz
Pulse repetition rate after frequency divider PRR = PRRL / N, N=1, 2, 3, … , 1025 Maximal average output power 3) at 1064 nm 5 W at 532 nm 2 W at 355 nm 1 W
3) Pulse energy at lowest PRRL at 1064 nm 30 µJ at 532 nm 20 µJ at 355 nm 10 µJ Pulse contrast at 1064 nm > 150 : 1 at 532 nm > 500 : 1 at 355 nm > 1000 : 1 Power long term stability < 1.0 % over 8 h after warm-up (Std. dev.) 4) Pulse energy stability (Std. dev.) 5) at 1064 nm < 0.8 % at 532 nm < 1.5 % at 355 nm < 1.5 % Pulse duration (FWHM) at 1064 nm 10 ± 3 ps Polarization linear, vertical 100 : 1 M² < 1.3 Beam circularity, far field > 0.85 Beam divergence, full angle at 1064 nm < 2.0 mRad at 532 nm < 1.5 mRad at 355 nm < 1.5 mRad Beam pointing stability (pk-to-pk) 6) < 50 µRad Beam diameter (1/e²) at 50 cm distance from laser aperture at 1064 nm 1.4 ± 0.2 mm at 532 nm 1.2 ± 0.2 mm at 355 nm 1.1 ± 0.2 mm Triggering mode internal / external Pulse output control frequency divider, pulse picker, instant amplitude control, burst mode, power attenuation Control interfaces keypad / USB / RS232 / LAN
OPERATING REQUIREMENTS Mains requirements 100 – 240 V AC, single phase 47 – 63 Hz Maximal power consumption < 0.5 kW Operating ambient temperature 18 – 27 °C Relative humidity 10 – 80 % (non-condensing) Air contamination level ISO 9 (room air) or better
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Model Atlantic 5
PHYSICAL CHARACTERISTICS Cooling air Laser head size (W × H × L) at 1064 nm 372 × 158 × 423 mm at 532 nm 372 × 158 × 590 mm at 355 nm Power supply unit size (W × H × L) 471 × 153 × 511 mm Umbilical length 3 m
CLASSIFICATION Classification according EN60825-1 CLASS 4 laser product
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. DANGER 2) When frequency divider is set to transmit every pulse. 3) VISIBLE AND/OR INVISIBLE LASER RADIATION See typical power and energy curves for other pulse repetition rates. AVOID EYE OR SKIN EXPOSURE TO DIRECT REFLECTED OR SCATTERED RADIATION
4) Nd:YAG 1064 nm, 532 nm, 355 nm At the lowest PRRL after warm-up under constant environmental conditions. Max. 5 W, pulse 10±3 ps CLASS IV LASER PRODUCT 5) At the lowest PRRL under constant environmental conditions. 6) Beam pointing stability is evaluated as a movement of the beam centroid in the focal plane of a focusing element.
PERFORMANCE
7 40 3.0 25
35 6 2.5 20
30 Pulse energy, µJ 5 Pulse energy, µJ 2.0 25 15 4 20 1.5 3 15 10 1.0
2 Average power, W
Average power, W 10 5 0.5 1 5
0 0 0 0 100 200 300 400 500 600 700 800 900 1000 100200 300400 500600 700 800 9001000 Repetition rate, kHz Repetition rate, kHz Typical output power and energy curves of Atlantic 5 Typical output power and energy curves of Atlantic 5-GR2
1.4 12
1.2 10
1.0 Pulse energy, µJ 8 0.8 6 0.6 4
Average power, W 0.4
0.2 2
0 0 100200 300400 500600 700 800 900 1000 Repetition rate, kHz Typical output power and energy curves of Atlantic 5-UV1
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OUTLINE DRAWINGS
required space
423 150 for air flow 37 16 MAX 282 Output 158 137 109 Atlantic 5
Side view Front view 8
414 6.5 Umbilical cord to power supply 8 Minimal curvature radius of umbilical 150 mm 372 350
150 required space for service
20 307.8 Top view
Outline drawings of Atlantic 5 laser head with a single 1064 nm output (dimensions in mm)
511 minimal curvature radius of umbilical 150 mm
471 153 200 100 require space required for umbilical space for Front view Rear view and air flow air flow air inlet air outlet
Top view Outline drawings of Atlantic 5 power supply unit (dimensions in mm)
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required space for air flow 364 590 150 449 60 50 50 16 MAX 158 137 107 8 Atlantic 5
Side view Front view Output 1064 nm
502.5 Output 532 nm Output 355 nm
6.5 Umbilical cord to power supply 8 Top view Minimal curvature radius of umbilical 150 mm 372 350
150
required 20 space for service 474.8
Outline drawings of Atlantic 5 laser head with two and three outputs (dimensions in mm)
ORDERING INFORMATION
Atlantic 5-IR-GR2-UV1
Model 355 nm output
1064 nm output (only for models 532 nm output with multiple outputs)
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Industrial High Power Picosecond Atlantic Lasers
FEATURES
▶ Up to 80 W at 1064 nm
▶ Optional 532 nm and 355 nm wavelengths (could be all 3 electronically switchable wavelengths)
▶ Up to 1 MHz repetition rate
▶ Up to 200 µJ pulse energy
▶ Short pulse duration 10 ps
▶ Excellent beam quality M²<1.3
▶ Versatile laser control and syncronisation capabilities
▶ Smart triggering for synchronous operation with polygon scanner MATERIALS and PSO Monolythic, sealed and rugged ▶ Various metals ▶ Silicone ▶ design ▶ Brittle materials including glass, ▶ PCB ceramics, sapphire and PCD ▶ Low ownership cost ▶ LCD, LED, OLED, microLED display Nanosecond pulse duration ▶ Silicon panels ▶ mode (optional) ▶ PET, PP, PI, PTFE ▶ Solar cells
High-energy and high-power To tailor laser performance for specific water-cooled Atlantic series industrial applications, advanced APPLICATIONS picosecond lasers are designed for electronics enable external gating Drilling a variety of industrial applications (including PSO), synchronization and ▶ such as LCD or OLED display cutting precise laser triggering as well as ▶ Cutting
and drilling, laser induced forward instant signal amplitude control. ▶ Patterning transfer (LIFT), glass and sapphire To maintain reliability and assure ▶ Structuring processing, micromachining of long-term stable operation in an Ablation ultra-hard materials, ablation of industrial environment, optical ▶ Dicing metals, cutting and drilling of components are installed in a sealed, ▶
polymers, silicon scribing, solar cell robust, precisely machined monolithic ▶ Micromachining scribing and many more. Superior aluminum block. Designed for robust, ▶ LCD, OLED cutting beam quality parameters, maximum low maintenance operation, Atlantic Laser induced forward transfer available average power (80W@IR / series lasers offer maximum reliability ▶ Sapphire structuring and dicing 40W@VIS / 30W@UV), maximum due to an optimized layout, PC ▶ available pulse energy (200μJ@IR / controlled operation, a built-in ▶ Ceramics micromachining 100μJ@VIS / 75μJ@UV) and maximum self-diagnostic system and advanced ▶ PCD drilling and tracing pulse repetition rate (up to 1MHz) status reporting. ▶ Silicon scribing are beneficial where high processing PET, PP, PTFE, Silicone cutting quality and high throughput are ▶ and drilling required.
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For industrial high-power UV laser A unique optional feature of applications, high reliability and low Atlantic high-power lasers is that ownership cost of UV components is they can work in both picosecond crucial. To meet these requirements, and nanosecond modes. This 2-in-1 the optical layouts of Atlantic UV laser solution is beneficial for some models are optimized for longevity materials processing (such as glass and stable operation in the UV range, or ceramics), where both very high resulting in a UV optics lifetime of accuracy, low processed surface 8,000 hours. roughness and high throughput are required at low cost.
TYPICAL VIEW OF ATLANTIC SERIES LASER HEADS
Typical view of Atlantic 6HE, 25, 50, 80 laser head Typical view of Atlantic 6HE, 25, 50, 80 laser head with a single 1064 nm output with two and three outputs
Typical view of Atlantic 6HE-UV2HE, 25-UV8, 50-UV18, 80-UV30 laser head with a single 355 nm output
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SPECIFICATIONS 1) Model Atlantic 6HE Atlantic 25 Atlantic 50 Atlantic 80
GENERAL SPECIFICATIONS Central wavelength Fundamental 1064 nm With second harmonics option 532 nm (optional 1064 nm output) 2) With third harmonics option 355 nm (optional 1064 nm and/or 532 nm outputs) 2)
3) Laser pulse repetition rate (PRRL) range 30 kHz 200 – 1000 kHz 300 – 1000 kHz 400 – 1000 kHz
Pulse repetition rate after frequency divider PRR = PRRL / N, N=1, 2, 3, … , 1025 Maximal average output power 4) at 1064 nm 6 W 25 W 50 W 80 W at 532 nm 3 W 12 W 25 W 40 W at 355 nm 2 W 8 W 18 W 30 W
4) Pulse energy at lowest PRRL at 1064 nm 200 µJ 125 µJ 165 µJ 200 µJ at 532 nm 100 µJ 60 µJ 85 µJ 100 µJ at 355 nm 75 µJ 40 µJ 60 µJ 75 µJ Pulse contrast at 1064 nm > 300 : 1 at 532 nm > 500 : 1 at 355 nm > 1000 : 1 Power long term stability < 1.0 % over 8 h after warm-up (Std. dev.) 5) Pulse energy stability (Std. dev.) 6) at 1064 nm < 1.0 % at 532 nm < 2.0 % at 355 nm < 2.5 % Pulse duration (FWHM) at 1064 nm 10 ± 3 ps Polarization linear, vertical 100 : 1 M² < 1.3 Beam circularity, far field > 0.85 Beam divergence, full angle < 1.5 mRad Beam pointing stability (pk-to-pk) 7) < 50 µRad Beam diameter (1/e²) at 50 cm distance from laser aperture at 1064 nm 1.8 ± 0.3 mm at 532 nm 2.2 ± 0.3 mm 1.8 ± 0.3 mm 2.2 ± 0.3 mm at 355 nm 2.0 ± 0.3 mm 1.8 ± 0.3 mm 2.0 ± 0.3 mm Triggering mode internal / external Pulse output control frequency divider, pulse picker, instant amplitude control, power attenuation Control interfaces keypad / USB / RS232 / LAN
OPERATING REQUIREMENTS Mains requirements 100 – 240 V AC, single phase 47 – 63 Hz Maximal power consumption < 2.8 kW < 2.8 kW < 3.1 kW < 3.5 kW Operating ambient temperature 18 – 27 °C Relative humidity 10 – 80 % (non-condensing) Air contamination level ISO 9 (room air) or better
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Model Atlantic 6HE Atlantic 25 Atlantic 50 Atlantic 80
PHYSICAL CHARACTERISTICS Cooling water Laser head size (W × H × L) single output 1064 nm 396 × 173 × 755 mm single output 355 nm 396 × 173 × 1000 mm 3 outputs 1064 / 532 / 355 nm 396 × 173 × 926 mm Power supply unit size (W × H × L) 553 × 1019 × 852 mm Umbilical length 4 m
CLASSIFICATION Classification according EN60825-1 CLASS 4 laser product
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. DANGER 2) Can be ordered either in a single output or in 2 or 3 separate harmonics outputs versions. 3) VISIBLE AND/OR INVISIBLE LASER RADIATION When frequency divider is set to transmit every pulse. AVOID EYE OR SKIN EXPOSURE TO DIRECT REFLECTED OR SCATTERED RADIATION
4) Nd:YAG 1064 nm, 532 nm, 355 nm See typical power and energy curves for other pulse repetition rates. Max. 80 W, pulse 10±3 ps CLASS IV LASER PRODUCT 5) At the lowest PRRL after warm-up under constant environmental conditions. 6) At the lowest PRRL under constant environmental conditions. 7) Beam pointing stability is evaluated as a movement of the beam centroid in the focal plane of a focusing element.
PERFORMANCE
35 140 70 210
30 120 60 180 Pulse energy, µJ 25 100 Pulse energy, µJ 50 150
20 80 40 120
15 60 30 90
10 40 20 60 Average power, W Average power, W 5 20 10 30
0 0 0 0 200 300 400 500 600 700 800 900 1000 300 400 500 600 700 800 900 1000 Repetition rate, kHz Repetition rate, kHz Typical output power and energy curves of Atlantic 25 Typical output power and energy curves of Atlantic 50
120 250 18 80
16 70 100 200 14
60 Pulse energy, µJ Pulse energy, µJ 80 12 150 50 10 60 40 8 100 30 40 6
Average power, W
Average power, W 20 50 4 20 2 10 0 0 0 0 400 500 600 700 800 900 1000 200300 400500 600 700 800900 1000 Repetition rate, kHz Repetition rate, kHz Typical output power and energy curves of Atlantic 80 Typical output power and energy curves of Atlantic 25-GR12
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35 105 50 120
30 90 100 40 Pulse energy, µJ 25 75 Pulse energy, µJ 80 20 60 30 60 15 45 20 40
10 30 Average power, W Average power, W 10 5 15 20
0 0 0 0 300 400 500 600 700 800 900 1000 400 500 600 700 800 900 1000 Repetition rate, kHz Repetition rate, kHz
Typical output power and energy curves of Atlantic 50-GR25 Typical output power and energy curves of Atlantic 80-GR40
11 50 30 90 10 45 25 75 9 40 Pulse energy, µJ 8 Pulse energy, µJ 35 20 7 60 30 6 25 15 45 5 20 4 10 30
15
Average power, W 3 Average power, W 2 10 5 15 1 5 0 0 0 0 200300 400500 600 700800 9001000 300 400 500 600 700 800 900 1000 Repetition rate, kHz Repetition rate, kHz
Typical output power and energy curves of Atlantic 25-UV8 Typical output power and energy curves of Atlantic 50-UV18
40 90
35 80 70
30 Pulse energy, µJ 60 25 50 20 40 15 30
10
Average power, W 20 5 10 0 0 400 500 600 700 800 900 1000 Repetition rate, kHz Typical output power and energy curves of Atlantic 80-UV30
40 0.20
M x = 1.062 M y = 1.043
30 Standard deviation 0.6% m 0.15
m
W 20 0.10
Power,
10 Beam size (radius), 0.05 X X fit Y Y fit
0 0 0210 0430 0 50 100 150 200 Time, h Z, mm Typical long term 355 nm output average power stability of Typical M² measurement of 355 nm wavelength at 34 W Atlantic 80-UV30 under constant environmental conditions average power, 400 kHz repetition rate (Atlantic 80-UV30)
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100% power level 75% power level 50% power level
25% power level 10% power level 100% power level with pulse divider 10
Typical beam profile of 355 nm in far field at 34 W max average power with different attenuation conditions
ORDERING INFORMATION
Atlantic 25-IR-GR12-UV8
Model 355 nm output max power: UV2HE → 3 W Fundamental UV8 → 8 W wavelength max power: UV18 → 18 W 6HE → 6 W UV30 → 30 W 25 → 25 W 50 → 50 W 532 nm output max power: 80 → 80 W GR3HE → 3 W GR12 → 12 W 1064 nm output GR25 → 25 W (only for models with GR40 → 40 W multiple outputs)
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LASER HEAD & POWER SUPPLY OUTLINE DRAWINGS
367 755 364 684
Atlantic 151 173 209 ma x 136 6
Side view Front view Output 37 Control panel required required space for space for Back view
service 200 service 659 6.7 Top view 150
150 17
Umbilical cord to power supply 375 381 396 Minimal curvature radius of umbilical 150 mm
Outline drawings of Atlantic 6HE, 25, 50, 80 laser head with a single 1064 nm output (dimensions in mm)
required space for service Front view Side view 0
30 367 926 364 Back view 855
x
Atlantic
151
173
207 ma
134
60 50 required required Control panel space for space for 50 service 17 200 659 service 6.7 Output 355 nm Top view Output 532 nm 150 Output 1064 nm 150
Umbilical cord to powersupply
381
375 Minimal curvature radius 396 of umbilical 150 mm
Outline drawings of Atlantic 6HE, 25, 50, 80 laser head with two and three outputs (dimensions in mm)
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Front view Side view Back view 367 1000 364 29 929
Atlantic 80-UV30 151 173 6 134 207 MA X
196.8 Control Output panel required space for 200 service 17 659 273
150 189 25 309 378 Umbilical cord to power supply 396 Minimal curvature 150 radius of umbilical 150 mm
Top view 6.7 200 9. 7
Outline drawings of Atlantic 6HE-UV2HE, 25-UV8, 50-UV18, 80-UV30 laser head with a single 355 nm output (dimensions in mm)
Front view Side view Back view Top view 553 800 150
air inlet air outlet 150 150 946
1019 minimal air inlet curvature radius
of umbilical 150 150 mm required space for air flow and service 852 air outlet
Outline drawings of Atlantic 6HE, 25, 50, 80 power supply unit (dimensions in mm)
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Compact Q-switched NL200 series DPSS Lasers
FEATURES
▶ Up to 4 mJ pulse energy at 1064 nm
▶ Up to 2500 Hz variable repetition rate
▶ 532 nm, 355 nm, 266 nm, 213 nm wavelengths as standard options
▶ <10 ns pulse duration at 1064 nm
▶ Electro-optical Q-switching
▶ Turn-key operation
▶ Rugged sealed cavity BENEFITS ▶ Compact size Continuous tuning of repetition rate Fast wavelength selection is superior ▶ ▶ ▶ Simple and robust while maintaining constant pulse for applications where alternating Air cooled energy, superior beam pointing and wavelengths are required, like ▶ energy stability make the laser the material ablation, LIBS ▶ External TTL triggering first choice for micromachining, Remote control via keypad ▶ Air cooling, cheap and reliable ▶ marking, thin film removing end-pumping technology, amplifiers and/or any controller running applications free DPSS design guarantee easy on any OS using REST API commands ▶ Close to Gaussian smooth beam operation and alignment of laser, profile with low value M² < 1.3 and simple installation and low life-time good focusability is beneficial for ownership cost such applications, as LCD and OLED ▶ Variety of control interfaces USB, APPLICATIONS display repair RS232, LAN, WLAN ensure easy ▶ Material processing ▶ Compactness and lightness make a control and integration of laser laser easy transportable, saves on with laboratory or OEM equipment ▶ LCD and OLED display panel valuable laboratory space repair
▶ Marking
NL200 series DPSS air-cooled panel repair, ablation, marking, ▶ Micromachining
nanosecond lasers offer high pulse engraving, laser cleaning, laser ▶ Engraving energy at kHz repetition rates. deposition and many more. ▶ Laser deposition End-pumped design makes this This laser can be equipped with Laser cleaning laser compact and easy to integrate harmonic generation modules ▶ Ablation into various laser equipment both for 532 nm, 355 nm, 266 nm and ▶
industrial and R&D. Featuring short 213 nm wavelengths. Excellent ▶ Spectroscopy nanosecond pulse duration, variable energy stability and a wide range ▶ OPO pumping repetition rate and external TTL of wavelength options make this Remote sensing triggering, nanosecond diode pumped laser a perfect tool for spectroscopy, ▶ NL200 series Q-switched lasers are photoacoustic imaging and remote excellent and cost-effective sources sensing applications. The mechanically Because of its robust design and for specific applications, when higher stable and hermetically sealed design diode-pumped technology this laser pulse energy is required, like material ensures reliable operation and long can work 24/7 with minimal down time processing, LCD and OLED display lifetime of the laser components. and low ownership cost.
22 SAVANORIU AV. 237, LT-02300 VILNIUS, LITHUANIA TEL +370 5 2649629 E - MAIL [email protected] WWW.EKSPLA.COM REV. 20210423 NANOSECOND INDUSTRIAL LASERS NL200 series
SPECIFICATIONS 1) Model 2) NL201 3) NL202 4) NL204 4) Pulse energy at 1064 nm 0.9 mJ 2.0 mJ 4.0 mJ at 532 nm 0.3 mJ 0.9 mJ 2.0 mJ at 355 nm 0.2 mJ 0.6 mJ 1.3 mJ at 266 nm 0.08 mJ 0.2 mJ 0.6 mJ at 213 nm 0.04 mJ 0.1 mJ 0.2 mJ Pulse to pulse energy stability (StdDev) 5) at 1064 nm <0.5 % at 532 nm <2.5 % at 355 nm <3.5 % at 266 nm <4.0 % at 213 nm <5.0 % Typical pulse duration 6) 7 – 10 ns Power drift 7) ± 2 % Pulse repetition rate 1 – 2500 Hz 1 – 1000 Hz Beam spatial profile Close to Gaussian in near and far fields Ellipticity 0.9 – 1.1 at 1064 nm M² <1.3 Beam divergence 8) <3 mrad Polarization linear Typical beam diameter 9) 0.7 mm Beam pointing stability (StDev) 10) ≤10 µrad Optical jitter (StdDev) 11) <0.5 ns
PHYSICAL CHARACTERISTICS Laser head (W × L × H) 12) 164 × 320 × 93 mm Power supply unit (W × L × H) 470 × 390 × 140 mm Umbilical length 3 m
OPERATING REQUIREMENTS Cooling air cooled Ambient temperature 18 – 30 °C Realtive humidity 20 – 80 % (non-condensing) Power requirements 100 – 240 V AC, single phase, 50/60 Hz Power consumption <600 W Cleanliness of the room not worse than ISO Class 9
1) Due to continuous improvement, all specifications 5) Averaged from pulses emitted during 30 sec time are subject to change. Parameters marked typical are interval. illustrative; they are indications of typical performance 6) FWHM at 1064 nm. DANGER and will vary with each unit we manufacture. Unless 7) stated otherwise all specifications are measured at 1064 Measured over 8 hours period after 20 min warm-up VISIBLE AND/OR INVISIBLE LASER RADIATION AVOID EYE OR SKIN EXPOSURE TO DIRECT nm and for basic system without options. when ambient temperature variation is less than ± 2 °C REFLECTED OR SCATTERED RADIATION and humidity <± 5%. Nd:YAG 1064 nm, 532 nm, 355 nm, 266 nm 2) Please indicate clearly if 1064 nm output is required in Max. 4 mJ, pulse 7–10 ns 8) CLASS IV LASER PRODUCT case harmonics options are ordered (except H200STHC Full angle measured at the 1/e² level at 1064 nm. module). In such a case, the energy of 1064 nm is 9) Beam diameter is measured at 1064 nm at the 1/e² optimized for harmonics generation and may differ level. from specified in the table. 10) Beam pointing stability is evaluated as movement of 3) Unless stated otherwise all specifications are measured the beam centroid in the focal plane of a focusing at 2500 Hz pulse repetition rate. element. 4) Unless stated otherwise all specifications are measured 11) With respect to QSW IN or SYNC OUT pulse. at 1000 Hz pulse repetition rate. 12) Without optional harmonic module.
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PERFORMANCE
2.0
1.8 1064 nm 532 nm 1.6 , mJ 355 nm
gy 1.4
1.2
Pulse ener 1.0
0.8
0.6
0 200 400 600 800 1000 Repetition rate, Hz
Fig 1. Typical performance data Fig 2. Typical beam intensity profile in of model NL202 laser the far field
OUTLINE DRAWINGS 34.5
NL202 71 38 70 297 7 49. 5 39. 5 150 164
140.5 50
Fig 3. NL202 laser head drawing
ORDERING INFORMATION NL201-H200SHC Note: Laser must be connected to the mains Model Harmonic generator options: electricity all the time. If there H200SHC → second harmonic will be no mains electricity for H200THC → third harmonic longer that 1 hour then laser H200FHC → fourth harmonic (system) needs warm up for a H200FiHC → fifth harmonic few hours before switching on.
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High Energy Q-switched DPSS NL230 series Nd:YAG Lasers
FEATURES
▶ Diode-pumped
▶ Rugged sealed laser cavity
▶ Up to 190 mJ at 1064 nm pulse energy
▶ Up to 100 Hz pulse repetition rate
▶ Short pulse duration in the 3 – 6 ns range
▶ Variable reflectivity output coupler for low-divergence beam
▶ Quiet operation: no more flashlamp firing sound
▶ Remote control via keypad and/or any controller running on any OS using REST API BENEFITS commands Optional temperature-stabilized ▶ Short duration 3 – 6 ns pulses ▶ Rugged, monolithic design enables ▶ ensures strong interaction with laser usage in hash environment second and third harmonic material, are highly suitable for LIBS generators ▶ Diode pumped design provides quiet Electromechanical shutter ▶ User selectable wavelength operation, eliminates the irritation ▶ single axis output is superior for of flash light (optional) experiments, where alternating ▶ Variety of interfaces USB, RS232, ▶ Easy replaceable output window wavelengths are required, like LAN, WLAN ensures easy control and material ablation, LIBS integration with other equipment
The NL230 series diode-pumped work in a harsh industrial environment APPLICATIONS short nanosecond lasers are designed with applications such as laser-induced ▶ LIBS (Light Induced Breakdown to produce high-intensity, high- breakdown spectroscopy (LIBS). Spectroscopy) brightness pulses and are targeted Second and third harmonic options ▶ Material ablation for applications such as material allows for an expanded range of ▶ OPO pumping ablation, Light Detection And Ranging applications, where high pulse energy Remote Sensing (LIDAR), remote sensing, mass and high pulse to pulse stability are ▶ LIDAR (Light Detection And spectroscopy, OPO, Ti:Sapphire or dye required. ▶ Ranging) laser pumping and many more. Diode For easy and seamless control Mass Spectroscopy pumping allows maintenance-free and integration with other industrial ▶ laser operation for an extended period equipment, the NL230 series laser is ▶ LIF (Light Induced Fluorescence) of time - more than 3 years for an equipped with USB/RS232 interfaces estimated eight working hours per day. and can be externally triggered with a Because laser head components jitter as low as < 0.5 ns rms. are placed in a robust, sealed and NL230 series lasers are designed precisely machined monolithic to work reliably 24/7 in an industrial aluminium block, this laser can reliably environment.
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SPECIFICATIONS 1) Model NL231-50 NL231-100 Pulse energy (not less than) 2) at 1064 nm 190 mJ 150 mJ at 532 nm 3) 110 mJ 90 mJ at 355 nm 4) 55 mJ 40 mJ Pulse energy stability (StdDev) 5) at 1064 nm < 1 % at 532 nm < 2.5 % at 355 nm < 3.5 % Pulse repetition rate 50 Hz 100 Hz Power drift 6) < ±1 % Pulse duration 7) 3 – 6 ns Linewidth < 1 cm⁻¹ at 1064 nm Beam profile8) “Top Hat” in near field and close to Gaussian in far field Beam divergence 9) < 0.8 mrad Beam pointing stability (StDev) 10) ≤ 60 μrad Polarization linear, > 95 % at 1064 nm Typical beam diameter 11) 5 mm Optical pulse jitter (StDev) Internal triggering regime < 0.5 ns External triggering regime < 0.5 ns Typical warm-up time 10 min
PHYSICAL CHARACTERISTICS Laser head size (W × L × H) 251 × 291 × 167 ± 3 mm Power supply unit (W × L × H) Desktop case 470 × 390 × 140 ± 3 mm 19″ module 483 × 390 × 140 ± 3 mm External chiller inquire Umbilical length 3 m
OPERATING REQUIREMENTS Cooling (air cooled) 12) external chiller Ambient temperature 18 – 30 ºC Relative humidity (non-condensing) 20 – 80 % Power requirements 100 – 240 V AC, single phase, 50/60 Hz Power consumption < 1.0 kW Cleanliness of the room not worse than ISO Class 9
1) Due to continuous improvement, all specifications are 6) Measured over 8 hours period after 20 min warm-up subject to change. The parameters marked typical may when ambient temperature variation is less than ± 2 °C vary with each unit we manufacture. Unless stated and humidity <± 5%. DANGER otherwise all specifications are measured at 1064 nm 7) FWHM. VISIBLE AND/OR INVISIBLE LASER RADIATION and for basic system without options. 8) AVOID EYE OR SKIN EXPOSURE TO DIRECT Near field (at the output aperture) TOP HAT fit is >80%. REFLECTED OR SCATTERED RADIATION 2) Outputs are not simultaneous. Inquire for higher 9) Full angle measured at the 1/e2 level. Nd:YAG 1064 nm, 532 nm, 355 nm energy (up to 350 mJ at 50 Hz, 250 mJ at 100 Hz) Max. 190 mJ, pulse 3 – 6 ns 10) CLASS IV LASER PRODUCT custom models. Beam pointing stability is evaluated as movement of the beam centroid in the focal plane of a focusing 3) With H230SHC or H230STHC harmonic generator element. module. 11) Beam diameter is measured at 1064 nm at the 4) With H230THC or H230STHC generator modules. 1/e² level. 5) Averaged from pulses, emitted during 30 sec time 12) Adequate room air conditioning should be provided. interval.
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PERFORMANCE X axis
Y axis
Fig 1. NL230 laser typical near field beam profile Fig 2. NL230 laser typical far field beam profile
Measure P1.ddelay P2.width P3.area value 72.011 ns 5.507 ns 2.358455 mVs mean 72.044 ns 5.482 ns 2.355738 mVs min 71.456 ns 5.167 ns 2.277066 mVs max 72.552 ns 5.970 ns 2.409653 mVs sdev 156.11 ps 81.27 ps 16.89196 pVs num 4.697 × 10³ 4.697 × 10³ 4.697 × 10³
Fig 3. NL230 laser pulse waveform
358 200 OUTLINE DRAWINGS 71
NL230 189 167 174 110
10 251 225
Fig 4. Typical NL230 series laser 75 head outline drawing 150 50 50 290
ORDERING INFORMATION NL231-H230THC Note: Laser must be connected to the mains electricity all the time. If there will be no mains Model Optional harmonic electricity for longer that 1 hour then laser (system) generator modules needs warm up for a few hours before switching on.
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Notes
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Revision – 20210423