Do you have a femtosecond?
Light Conversion, UAB
|Tel.:||+370 52 49 18 30|
|Tel.:||+1 866 658 5404 (USA and Canada)|
|Tel.:||+82 42 368 1010 (Korea)|
|Tel.:||+81 48 871 0067 (Japan)|
|Tel.:||+86 158 7551 0400 (China)|
|E-mail:||(USA and Canada)|
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LIGHT CONVERSION, founded in 1994 with roots at the Vilnius University Laser Research Center, is a pioneer in femtosecond OPAs and Yb-based femtosecond laser sources. Currently, it is one of the world’s leading manufacturers of femtosecond lasers.
With proven competence in laser design and manufacturing, state-of-the-art R & D facilities, and close ties to research programs, LIGHT CONVERSION offers unique solutions for today’s industrial, scientific, and medical challenges. The reliability of our femtosecond lasers has been proven by hundreds of systems operating 24/7 for more than 10 years in the industrial market. Using our knowledge, experience, and highly motivated professional team, we focus on quality and customer satisfaction.
See us at CLEO in San Jose, USA, May 17–19 (booth 202), Laser Korea 2022 in Goyang-si, Korea, July 6–8, LASER World of PHOTONICS CHINA 2022 in Shanghai, July 13–15, (booth W2.2127) and LASYS 2022 in Stuttgart, Germany, June 21–23 (hall 4, booth 4B38)!
Light Conversion in the Virtual Exhibition
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News: Explore new depths in microscopy with Cronus!
Star product: The femtosecond laser CARBIDE and industrial-grade optical parametric amplifier I-OPA are recognized among the best by the 2020 Laser Focus World Innovators Awards.
The GECO and TIPA autocorrelators are designed for ultrashort pulse duration measurements in a 500 – 2000 nm spectral range. GECO is the preferred solution for daily measurements of medium- and high-repetition-rate laser systems, measuring pulse durations between 10 fs and 20 ps, intuitive use, and capability of FROG trace measurements. TIPA is explicitly designed for low-repetition-rate laser systems, enabling single-shot measurements and pulse-front tilt analysis.
|femtosecond lasers||S E|
LIGHT CONVERSION has worldwide recognition for its industrial-grade Yb-based PHAROS and CARBIDE femtosecond lasers and FLINT femtosecond oscillators. The PHAROS series focuses on customizability, reliability, and process-tailored laser output parameters. The CARBIDE series provides a compact industrial-grade design with air- and water-cooled models, the latter reaching output power of up to 80 W. The FLINT oscillators extend the parameters range with a 76 MHz repetition rate. Thus, all together cover a wide range of scientific, industrial, and medical applications.
See also our video on The CARBIDE femtosecond laser!
|fluorescence microscopes||S E|
The LIGHT CONVERSION product portfolio with recently released microscopy-dedicated femtosecond laser sources, CRONUS-2P and CRONUS-3P, covers applications in functional neuroimaging, optogenetics, and deep imaging using medium-repetition-rate three-photon excitation and fast high-repetition-rate two-photon imaging, as well as widefield and holographic excitation using high-power laser sources.
See the complete list of laser sources for nonlinear microscopy and examples of the state-of-the-art applications in our brochure!
|high harmonic generation equipment||S E|
Optical parametric chirped-pulse amplification (OPCPA) is the only currently available laser technology simultaneously providing high peak and average power, as well as few-cycle pulse duration required by the most demanding scientific applications. Our answer to these demands is a portfolio of cutting-edge OPCPA products based on years of experience in developing and manufacturing optical parametric amplifiers and femtosecond lasers. With a peak power up to >5 TW, pulse durations down to 6.5 fs and CEP stability of <250 mrad, it is an excellent laser source for high harmonic generation.
|industrial lasers||S E|
The CARBIDE is a series of femtosecond lasers combining high average power and excellent power stability. CARBIDE features market-leading output parameters without compromises to beam quality and stability. The compact and robust optomechanical CARBIDE design allows a variety of applications in top-class research centers, as well as display, automotive, LED, medical, and other industries. The reliability of CARBIDE has been proven by hundreds of systems operating 24/7 in the industrial environment.
The tunability of CARBIDE lasers enables our customers to discover the most efficient manufacturing processes. Tunable parameters include pulse duration (190 fs – 20 ps), repetition rate (single-shot – 2 MHz), pulse energy (up to 0.8 mJ), and average power (up to 80 W). A pulse-on-demand mode is available using the built-in pulse picker. The CARBIDE lasers can be equipped with industrial-grade modules.
|Kerr lens mode-locked lasers||S E|
The FLINT oscillators are based on an Yb-doped crystal pumped with high brightness laser diodes. The generation of femtosecond pulses is achieved with Kerr lens mode-locking. Once started, mode-locking remains stable over a long period and is immune to minor mechanical impact. The oscillator cavity length can be adjusted using an optional piezo actuator. The FLINT oscillators can also be equipped with carrier–envelope phase (CEP) stabilization and repetition rate locking to an external source.
|lasers for material processing||S E|
The industrial-grade femtosecond PHAROS and CARBIDE lasers have an option for tunable GHz and MHz burst with burst-in-burst capability – called BiBurst. In standard mode, a single pulse is emitted at some fixed frequency. In burst mode, the output consists of pulse packets instead of single pulses. Each packet consists of a certain number of equally separated pulses. A MHz burst contains N pulses with a nanosecond period, while a GHz burst contains P pulses with a picosecond period. If both bursts are used, the equally separated pulse packets contain sub-packets of pulses (burst-in-burst, BiBurst).
The high pulse energy femtosecond laser with the flexible BiBurst functionality brings new production capabilities to high-tech manufacturing industries such as consumer electronics, integrated photonic chip manufacturing, stent cutting, surface functionalization, future displays manufacturing, and quantum computing.
|mid-infrared laser sources||S E|
The ORPHEUS-MIR is an optical parametric amplifier (OPA) optimized for the efficient generation of broad-bandwidth mid-IR pulses. The system provides broadband pulses in the tuning range of 2.5 – 10 μm and reaches up to 15 μm with an optional narrow-bandwidth extension. Due to the novel system design, ORPHEUS-MIR provides < 100 fs pulses directly at the output. Signal and idler outputs are available simultaneously. The system architecture is well suited for pumping with the high-energy and high-power PHAROS and CARBIDE lasers.
|optical parametric amplifiers||S E|
The highlight of tunable wavelength sources is the ORPHEUS series of femtosecond optical parametric amplifiers (OPAs) for pumping with Yb-doped lasers. The ORPHEUS series enables operation at high repetition rates while maintaining the best properties of TOPAS series OPAs such as the wide tuning range from deep-UV to mid-IR and high output stability. In combination with the PHAROS or CARBIDE femtosecond laser, it makes an invaluable source for ultrafast spectroscopy, nonlinear microscopy, and a variety of other applications. The list of tunable wavelength sources has been recently extended by the addition of I-OPA, a compact industrial-grade OPA, and CRONUS-3P, an OPA-based ultrafast source with GDD control for advanced nonlinear microscopy.
|optical parametric chirped-pulse amplifiers||S E|
Optical parametric chirped pulse amplification (OPCPA) is the only currently available laser technology simultaneously providing high peak and average power, as well as few-cycle pulse duration required by the most demanding scientific applications. Light Conversion’s answer to these demands is a portfolio of cutting-edge OPCPA products that are based on years of experience in developing and manufacturing optical parametric amplifiers (OPAs) and femtosecond lasers.
LIGHT CONVERSION OPCPAs offer peak powers up to >5 TW, pulse durations down to 6.5 fs, and CEP stability of <250 mrad, making them an excellent laser source for high energy and attosecond science.
|scientific lasers||S E|
The PHAROS is a series of femtosecond lasers combining millijoule pulse energy and high average power. The PHAROS features a mechanical and optical design optimized for both scientific and industrial applications. A compact, thermally-stabilized, and sealed design enables the integration of PHAROS into various optical setups and machining workstations. The diode-pumped Yb laser medium significantly reduces maintenance costs and provides a long laser lifetime, while the robust optomechanical design enables stable operation in varying environments.
The tunability of PHAROS allows the system to cover applications normally requiring multiple different laser systems. Tunable parameters include pulse duration (190 fs – 20 ps), repetition rate (single-shot – 1 MHz), pulse energy (up to 2 mJ), and average power (up to 20 W). A pulse-on-demand mode is available using the built-in pulse picker. The versatility of PHAROS can be extended by a variety of optional modules.
See our catalog on Femtosecond Laser Systems for Science!
The HARPIA comprehensive spectroscopy system performs a variety of sophisticated time-resolved spectroscopic measurements in a compact footprint. It offers an intuitive user experience and easy day-to-day maintenance, meeting the needs of today’s scientific applications. Extension modules and customization options tailor the HARPIA system to specific measurement needs.
The system is built around the HARPIA-TA transient absorption spectrometer and can be expanded using time-correlated single-photon counting and fluorescence upconversion (HARPIA-TF), third beam delivery (HARPIA-TB), and microscopy (HARPIA-MM) modules. HARPIA is designed for easy switching between measurement modes and comes with dedicated data acquisition and analysis software. Each module is contained in a monolithic aluminum body ensuring excellent optical stability and minimal optical path lengths. For a single-supplier solution, the HARPIA spectroscopy system can be combined with a PHAROS or a CARBIDE laser together with ORPHEUS series OPAs. The HARPIA also supports Ti:sapphire lasers with TOPAS series OPAs.
For more information, refer to our HARPIA selection guide.
|time-resolved spectroscopy equipment||S E|
The HARPIA-TA ultrafast transient absorption spectrometer provides pump–probe measurement functionality in a HARPIA system. Several probe light configurations and detection options are available: from a photodiode for single-wavelength detection to white-light supercontinuum probing combined with spectrally-resolved broadband detection. The HARPIA-TA features extensive automation options providing pump and probe beam position tracking and alignment, pump polarization control, supercontinuum generator switching, sample positioning, as well as switching between transient absorption and transient reflection measurements. Broadband probe options cover a 330 – 16,000 nm range, while a monochromatic probe can be used up to 24 μm. The probe delay stage is configurable from 2 ns to 8 ns.
The HARPIA-TA features a market-leading sensitivity of 0.05 mOD (10−4 ΔT/T) and can be operated at high repetition rates of up to 1 MHz when used with a PHAROS or CARBIDE laser and an ORPHEUS series OPA. This allows the study of transient absorption dynamics with excitation pulse energies down to several nanojoules.
HARPIA-TA is compatible with cryostats and peristaltic pumps, and the capabilities of the spectrometer are extendable using expansion modules.
|ultrafast lasers||S E|
LIGHT CONVERSION has a worldwide recognition for its industrial-grade Yb-based PHAROS and CARBIDE femtosecond lasers and FLINT femtosecond oscillators. The PHAROS series focuses on customizability, reliability, and process-tailored laser output parameters. The CARBIDE series provides a compact industrial-grade design with air- and water-cooled models, the latter reaching output power of up to 80 W. The FLINT oscillators extend the parameters range with a 76 MHz repetition rate. Thus, all together cover a wide range of scientific, industrial, and medical applications.
See also our on Femtosecond Laser Systems for Science!
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autocorrelators, femtosecond lasers, fluorescence microscopes, high harmonic generation equipment, industrial lasers, Kerr lens mode-locked lasers, lasers for material processing, mid-infrared laser sources, optical parametric amplifiers, optical parametric chirped-pulse amplifiers, scientific lasers, spectrometers, time-resolved spectroscopy equipment, ultrafast lasers
autocorrelators, femtosecond lasers, fluorescence microscopy, high harmonic generation, industrial lasers, Kerr lens mode locking, lasers for material processing, mid-infrared laser sources, optical parametric amplifiers, optical parametric chirped-pulse amplification, scientific lasers, spectrometers, time-resolved spectroscopy, ultrafast lasers
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