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532nm - Sub-ns Microchip Lasers
Horus Laser designs, manufactures and sales picoseconds microchip lasers based on a new technology. The great competence of its experienced engineering team in the field of microchip lasers made it possible to develop simple, effective and robust designs and to give rise to products with unique performances and specifications on the market.
HLF-G (Green) at 532 nm.
Pulses width from 600ps to 1ns and repetition rates from 5 to 50kHz. Average output power from 30 to 150mW.
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Power and stability.
Diode-pumped laser sources.
ViolinoTM GREEN, which is one of the product of the Laservall DPSS family,manufactured with an extensive experience and success of ViolinoTM family, is based on the mechanic optical architecture of Second Harmonic Generation (SHG) INTRACAVITY technology.
The INTRACAVITY technology allows a very extensive life of the LBO non-linear crystal together with high beam quality and stability that is ideally used for applications which a short wavelength (532nm) is more suitable in comparison with the I.R. laser radiation.
The result is an innovative laser solution with higher average power with economical operation features and easiness of use and maintenance.
The ViolinoTM GREEN can be used with scanning head for different industrial applications: process of plastics, changing surface color for legible marks without burning and ablation of thin films with no alteration of the substrate material.
All the advantages of the ViolinoTM platform (power stability, reliability and air cooling) have been maintained also on this laser.
As per the ViolinoTM laser family this GREEN laser can be easily integrated in production line for the automotive industries and solar cell scribing, LCD Scribing and Semiconductor wafer dicing.
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Overview
Evolution - DPSS Q-Switched
Family of Q-switched Nd:YLF green pump lasers. And introducing the NEW Evolution-HE.
Evolution is a family of frequency-doubled, Nd:YLF lasers with excellent mode quality, stability and a range of power levels ideally suited to pumping Ti:Sapphire ultrafast amplifiers.
With diode laser lifetimes often exceeding 10,000 hours, Evolution's diode-pumping module is key to its reliability, power stability, low noise, excellent beam quality, and compact size.
Highly efficient diode-pumping lowers the thermal load on the YLF rod, which-in turn-reduces noise, improves power stability and enhances beam quality. Evolution is built in a monolithic, thermally stabilized enclosure for reliable, alignment-free operation and rugged packaging.
Features :
- Optimized for pumping Ti:Sapphire
- Available in 15W, 30W, 70W, 90W, Double-Pulse and High-Energy versions (models)
- High average power (>90W at 5 kHz) or high energy-per-pulse (up to 45 mJ at 1 kHz)
- 1 to10 kHz repetition rates
- Excellent beam quality
- Typically <0.4% pulse-to-pulse noise
- Pump diode lifetimes in excess of 10,000 hours (warranted up to 5,000 hours)
- Low thermal lensing and natural birefringence of Nd:YLF
- Monolithic, thermally stabilized enclosure
- Compact, rugged package with a rack-mountable power supply and closed-loop chiller
- Supplied laptop computer and LabVIEW®-based software
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Models:
LCM-DTL-329QT (1053 nm, 300 µJ, 200 µJ) with features:
-Output in infrared at 1053 nm
-Pulsed mode of operation with short pulse duration - 7±3 ns
- External triggering
- Range of Pulse Repetition Rate: 0 - 10 kHz
- Pulse Energy Stability (StDev.) <1.5%
- Beam profile - Gaussian, TEM00
-OEM version (with 24V DC Power Supply) is available
LCS-DTL-324QT (1064 nm, 100 µJ) with features:
-Output in infrared at 1064 nm
-Pulsed mode of operation with short pulse duration <10 ns
- External / internal triggering
- Range of Pulse Repetition Rate: 0 - 10 kHz
- Beam profile - Gaussian TEM00
-OEM version and complete laser systems are available
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1064nm - Sub-ns Microchip Lasers
Horus Laser designs, manufactures and sales picoseconds microchip lasers based on a new technology. The great competence of its experienced engineering team in the field of microchip lasers made it possible to develop simple, effective and robust designs and to give rise to products with unique performances and specifications on the market.
HLF-I (Infrared) at 1064 nm.
Pulses width from 600ps to 2ns and repetition rates from 5 to 100kHz. Average output power from 100 to 500mW.
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Characteristic of the Violino 2 is the excellent beam Quality necessary for marking a broad range of materials.
Best results on steel, titanium, aluminium (bare, anodized or coated) as well as on plastics (such as ABS, Lexan, PES, PET, PVC), polycarbonate and many others.
The simple end-pumped architecture using a TE cooled diode laser pump with high MTBF, assures the reliability and availability of the system, which is equired by the standards of many industrial applications including automotive and electronic manufacturing.
The large potentiality of Violino 2 on different materials makes this laser usable in almost all industries whether reliability and efficiency are the most valuable features requested. Other applications include: lasting mark on mechanical parts, decorative design marking on dashboard or cellular phone keyboard, marking of electronic components and identification marking on surgical instruments.
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Model LCS-DTL-382QT (266 nm, 3 µJ)
Features:
Pulsed mode of operation with short pulse duration 6 mW
Beam profile - Gaussian, TEM00
AC and OEM version with 24V DC Power Supply are available
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Among the TEEM PHOTONICS offer, our Q switched DPSS UV laser Microchip family allows to generate high peak power pulses at 355nm (SNV Microchip family) or 266Nm (SNU Microchip family) of a few hundred picoseconds, this with an economical, compact, and reliable solution.
-SNV and SNU series are designed for high average power, either from pulse energies up to 2uJ at 266nm, with free running repetition rates up to 40kHz
-SFx series allow users to select up to three fixed frequencies from 10Hz to 4kHz
-STx series enable the user to trigger the laser on demand, varying the period from 100ms to 500As, pulse to pulse from 10Hz to 4KHz.
They are specialized for utilization in applications as Material processing, Biophotonics, Instrumentation, Laser-induced fluorescence (LIF),Micro dissection,Organic compound marking and micromachining,Biohazard detection,Time resolved fluorescence,Laser Induced Breakdown
Spectroscopy (LIBS),Semiconductor inspection
Features & Benefits:
-Ultrashort picosecond Nd:Yag pulses (As low as 550ps durations )
- High peak power(Can exceed 20kW per pulse)
- Variety of frequency options
(Free running to 40kHz, Fixed frequency&triggerable to 4kHz)
- Excellent beam quality (Gaussian, TEM00, M2?1.3 )
- Efficient, air cooled (Typically dissipates <10W and consumes < 20W)
- Extremely ultra-violet long life
(expected lifetimes exceeding 10,000 hours (consult factory for details))
-Licensed Technology
(Passively Q-switched pico-second microchip laser:US Patent 5394413)
Optional features:
- Connector receptacled for multimode fiber coupling
- Photodiode output for synchronization
- Manual controls for CDRH compliance
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High performances for material processing demanding applications.
Diode-pumped laser sources.
ViolinoTM U.V. , manufactured with an extensive experience and success of ViolinoTM DPSS family, is based on the mechanic optical architecture of Third Harmonic Generation (THG) INTRACAVITY technology.
The INTRACAVITY technology allows a very extensive life of the LBO non-linear crystal. Together with high beam quality and its axial simmetry are ideal to be used for applications which need a short wavelength (355nm).
The U.V. 355nm wavelength causes much less mechanical distortion and much less heat affected zone (HAZ) in comparison with the I.R. laser radiation.
Its high average power and repetition rate allow to cut complex shapes in silicon wafer and in fast scribing of glass.
As per the ViolinoTM laser family this U.V. laser is air cooled and can be easily integrated in production line.
High performances of this Laser source allow its use in demanding material process applications.
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The Spectra-Physics Tristar™ is a high-repetition rate Q-switched UV laser. This new state-of-the-art light source offers an impressive combination of power and flexible repetition rates. It can be configured with more than 800 mW of 355 nm power at 100 kHz with a pulse width of <25 ns and a peak power stability of 2 W, or it can be increased to rates of up to 150 kHz in order to allow fast processing speeds.
The Tristar laser is an excellent choice for demanding applications where highly-focused spots, precision positioning and the highest possible throughput are necessary. With this laser, customers can design systems where every pulse is precisely positioned on a micrometer scale. The Tristar ensures that the focus is round and tight enough to apply laser energy exactly where it is needed without damaging or wasting any surrounding material.
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Models:
- LCM-S-111 - SLM green laser module.
50 mW, 20 mW, 10 mW output power is available.
Small in size and non-expensive.
- LCS-DTL-317 - SLM green turnkey laser system. 50 mW and 20 mW output power is available.
Designed for laboratory applications
Complies with FDA 21CFR 1040.10 and 1040.11 for complete laser products.
The laser output can be controlled manually from 0 to maximum value specified for laser model, or via remote interlock by the control voltage.
Key features:
Line width 0.00001 nm
Low noise <0.5 % RMS (typ. 0.1%) and <2% peak-to-peak (typ. 0.5%)
Longterm stability <2% / 8 hours
Transverse mode - TEM00, M250 m). They can be used in laser microscopy (LSCM, MPLSM), spectroscopy, interferometry, holography, flow citometry, laser displays, printing to photosensitive materials.
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A new generation of automatically tunable laser system in Littman/Metcalf configuration is offered. The laser systems offers a high output power of typically 100mW over a large tuning range with complete user remote control. Special features are:
High optical power
- output power up to 150mW
- excellent quantum efficiency
- high fiber coupling efficiency
Excellent tuning behavior
- coarse and fine tuning modes
- fine tuning via piezo actuator with a resolution better than 10MHz
- manual coarse tuning up to 30nm at 780nm or 830nm
- large mode-hop free tuning range of up to 100GHz and more
Narrow linewidth
- linewidth 50dB
High flexibility
- system with wavelength of 760nm to 1080nm are available, further wavelength are under development
- free beam and fiber coupled versions available
- constant current and constant power operation modes
Plug & Play configuration
- automated piezo tuning with power read-out
- remote control via GPIB, RS232 and USB
Applications for the new laser generation include:
- Spectroscopy und optical process control
- Master laser for THz generation
- Optical cooling and trapping, BEC
- Absolute distance interferometry
- Laser and OPO seeding
- Non-linear optical processes
- Characterizing of fiber optical systems
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Photonics Industries offers two very distinct versions of a tunable wavelength laser, the OPO series and the TU series. The OPO series is the first commercially available Optical Parametric Oscillator to produce pulse rates at a high repetition rate of up to 50 kHz. It is available in two models with a wavelength ranging from 1.5 um to 3.4 um. The TU series uses a Ti:Sapphire crystal in order to produce a wavelength ranging from 193 nm to 960 nm depending on the specifications and model.
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Solid state lasers: DPSS lasers
