Where to Buy Femtosecond Lasers
Various laser devices can emit ultrashort optical pulses with femtosecond durations. Different devices can cover enormously wide parameter regions in terms of pulse energy and duration, peak power, repetition rate, average power and center wavelength.
E | See also our encyclopedia article on femtosecond lasers! Related articles: mode-locked lasers, ultrafast lasers, picosecond lasers, ultrashort pulses |
Related products: ultrafast lasers
Related product category: lasers and laser amplifiers
See also the video on The CARBIDE femtosecond laser from Light Conversion!
See also the white paper on Optical synchronization of ultrafast lasers for attosecond-level timing distribution from Menhir Photonics!
Check List for Femtosecond Lasers
- At what wavelength should it emit – with what precision or stability, and with what bandwidth?
- What is the required average output power?
- What is the output beam quality? (It will normally be close to diffraction-limited.)
- What is the pulse duration, peak power and pulse repetition rate (variable or fixed)?
- Is the pulse quality high enough concerning time–bandwidth product, temporal pedestals, pre- and after-pulses, and possible side lobes in the spectrum?
- Will the pulse properties be stable in some range of temperatures and over a longer time?
- Is the device sensitive to back-reflections? (Will you need a Faraday isolator to protect it? With what degree of isolation?)
- Are the outer dimensions of the laser source setup and power supply or driver suitable for you?
- Is the device sufficiently robust? (Does it require realignment after moderate mechanical shocks?)
In case that you need additional advice, consultancy from RP Photonics may be the solution.
81 suppliers for femtosecond lasers are listed in the RP Photonics Buyer's Guide. Both manufacturers and distributors can be registered.
Suppliers with Ad Package | |
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Company | Product Description |
All wavelengths. Lochhamer Schlag 19 82166 Gräfelfing Germany Quality: ISO 9001:2015 www.toptica.com Social: Facebook, LinkedIn, YouTube E-mail: Tel.: +49 89 85 83 70 Fax: +49 89 85 83 72 00 | With more than 15 years of experience, TOPTICA provides high-repetitive femtosecond lasers based on erbium- and ytterbium fiber laser technology. TOPTICA offers systems for OEM integrators as well as customized solutions for scientific customers, ranging from compact fiber-based seeders / oscillators to custom-tailored high-power amplifiers. |
Savanoriu Av. 237 02300 Vilnius Lithuania Quality: ISO 9001 | EKSPLA offers a wide range of femtosecond lasers for various applications: - FemtoLux3 series microjoule class industrial fiber laser - Ultraflux series femtosecond tunable wavelength laser based on the novel OPCPA technology - FF200 series compact fiber laser |
Emery Court Stockport, Cheshire SK4 3GL United Kingdom www.laserquantum.com Social: Facebook, LinkedIn, Twitter, YouTube E-mail: Tel.: +44 161 975 5300 Fax: +44 161 975 5309 | Laser Quantum specialise in femtosecond laser systems with ultra-short pulses and high repetition rates that offer unique capabilities and benefits to a wide variety of scientific applications. |
Thiersteinerallee 71 4053 Basel Switzerland | Menhir Photonics offers ultrafast mode-locked lasers at 1.5 μm wavelength. These lasers offer pulse width below 200 fs and fundamental pulse repetition rates that can be chosen from 250 MHz up to 2.5 GHz. These systems are hermetically sealed and all-in-one (laser and electronic is one box). Menhir Photonics’ products have been designed to achieve ultra-low-noise performances combined with high-reliability and robustness, to ensure that they can be used in any situation from laboratory setup to harsh environments. |
Extreme power at extreme wavelength Deutsches Elektronensynchrotron DESY Notkestr. 85 22607 Hamburg Germany | Class 5 Photonics offer powerful and high-performance femtosecond lasers based on optical parametric chirped pulse amplification (OPCPA): - 5 W to 100 W average power for demanding applications - pulse duration from 100 fs down to 9 fs - pumped by industrial Yb:fiber or Yb:YAG amplifiers - CEP stability available - add-ons: EUV to MID-IR wavelength extension Extreme power at extreme wavelengths with award-winning products serving the ultrafast community with wavelengths ranging from high-flux extreme-ultraviolet (XUV) to high-field Terahertz – enabling researchers in physics, chemistry, and biology to conduct outstanding research at the frontiers of their fields. |
Do you have a femtosecond? Keramiku 2B 10233 Vilnius Lithuania Quality: ISO 9001:2015 www.lightcon.com Social: Facebook, LinkedIn, YouTube E-mail: E-mail: (South Korea) E-mail: (Japan) E-mail: (China) Tel.: +370 52 49 18 30 Tel.: +82 42 368 1010 (Korea) Tel.: +81 48 871 0067 (Japan) Tel.: +86 158 7551 0400 (China) | The PHAROS is a femtosecond laser system combining millijoule pulse energies and high average powers. PHAROS features a mechanical and optical design optimized for industrial applications such as precise material processing. Compact size, integrated thermal stabilization system and sealed design allow PHAROS integration into machining workstations. The use of solid state laser diodes for pumping of Yb medium significantly reduces maintenance cost and provides long laser lifetime. Tunable PHAROS parameters include: pulse duration (190 fs – 20 ps), repetition rate (single pulse to 1 MHz), pulse energy (up to 2 mJ) and average power (up to 20 W). Its deliverable power is sufficient for most of material processing applications at high machining speeds. The built-in pulse picker allows convenient control of the laser output in pulse on demand mode. The compact and robust optomechanical design features of PHAROS lead to stable laser operation in varying environments. The PHAROS laser can be equipped with automated harmonics modules. A selection of fundamental (1030 nm), second (515 nm), third (343 nm), fourth (257 nm) or fifth (206 nm) harmonic outputs are available through software control. Harmonics generators are designed to be used in industrial applications where a single output wavelength is desired. Modules are mounted directly on the output of the laser and integrated into the system. PHAROS has an option for tunable GHz and MHz burst with burst-in-burst capability – called BiBurst. The distance between burst packet groups is called nanosecond burst, N (MHz-Burst). The distance between sub-pulses in the group is called picosecond burst, P (GHz-Burst). In single pulse mode, one pulse is emitted at a time at some fixed frequency. In burst mode, the output consists of several picosecond burst packets each separated by an equal time period between each packet. Each packet can contain a number of sub-pulses which are also separated by an equal time period between each pulse. High pulse energy femtosecond laser with 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. BiBurst material fabrication areas cover: - brittle material drilling and cutting - deep engraving - selective ablation - transparent materials volume modification - hidden marking - surface functional structuring |
Blokken 84 3460 Birkerød Denmark Quality: ISO 9000:2015 www.nktphotonics.com Social: Facebook, LinkedIn, Twitter, YouTube Tel.: +45 4348 39 00 Fax: +45 4348 39 01 | Origami is our ultra-stable passively mode-locked laser platform, it exhibits the lowest phase noise on the market. A special hybrid laser setup, consisting of state-of-the-art polarization maintaining (PM) fiber technology and free-space sections for advanced dispersion control, allows for high pulse energy generation while supporting perfectly transform-limited soliton pulses without spectral ripples, excess of optical bandwidth, Kelly-sidebands, temporal pedestals or satellite pulses. The Origami lasers are designed for all precision applications, scientific or industrial, requiring long-term amplitude stability, low phase noise and timing jitter, compact and rugged design and 24/7 maintenance-free operation. |
Leading in Ultrafast Kapteyn-Murnane Laboratories Inc. 4775 Walnut St. #102 Boulder, CO 80301 United States | KMLabs is the only commercial provider for comprehensive, end-to-end research systems that leverage ultrafast pulses of extreme UV and soft X-ray light for a variety of experiments. The QM Quantum Microscope™ builds on the company’s world leading technology in high harmonic generation to enable a range of techniques including coherent diffraction imaging, photoemission, pump–probe spectroscopy, and EUV metrology. In addition, KMLabs continues to pioneer the development and engineering of standalone short wavelength sources including the Hyperion VUV laboratory-based vacuum ultraviolet femtosecond laser source, and the Pantheon™ platform, a pulsed EUV source-beamline to generate and deliver EUV photons to user-supplied experimental stations. |
Precision in photonics. Together we shape light. Am Klopferspitz 19a 82152 Martinsried Germany Quality: ISO 9001:2015 www.menlosystems.com Social: LinkedIn, YouTube E-mail: E-mail: (for North America) Tel.: +49 89 1 89 16 60 Fax: +49 89 1 89 16 61 11 | Menlo Systems' femtosecond fiber lasers based on Menlo figure 9® patented laser technology are unique in regard to user-friendliness and robustness. We offer solutions for scientific research as well as laser models engineered for OEM integration. From the shortest pulses to highest average power beyond 10 Watts and pulse energy beyond 10 μJ, we have the solution for your application ranging from basic research to industrial applications in spectroscopy, quality control, and material processing. |
8495 Veterans Memorial Pkwy O’Fallon MO 63366 United States | RPMC Lasers offers mode locked femtosecond fiber lasers from 400 fs down to <140 fs, with average powers up to 50 W and wavelengths of 1040, 1035, 920 and 515 nm. |
Ultrafast lasers that simply work Kasprzaka 44/52 01–224 Warszawa Poland | Halite is a compact, single-box, all-fiber femtosecond laser, specifically designed to meet the most demanding applications in the field of neuroscience, biophotonics, microscopy and engineering. With pulses as short as <180 fs, average power up to 2 W at 1030 nm and the option of second harmonic generation at 515 nm, it is an irreplaceable tool in every lab that needs a reliable, turn-key, ultrafast light source. Thanks to its unique construction and SESAM-free technology it is a cost-effective solution that provides high pulse energy (up to 100 nJ) and an excellent beam quality. Halite’s industrial design facilitates easy integration with both experimental and commercial systems. |
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All Suppliers | |
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From Asia: | |
Westside Gotanda 2F, 6–2–7 Nishi-Gotanda, Shinagawa-ku, Tokyo 141–0031 Japan | |
Plot-1054/18 Near Old S.D.M. Court Railway Road, Hansi-125033 (Hisar) Haryana India | www.deepphotonicsindia.com Tel.: +91 1663 25 7325 |
ODTU Teknokent Galyum Blok Z-3 06800 Ankara Turkey | |
511 Hashita 9955256 Beit Shemesh Israel | |
17 Atir Yeda Street Kfar Saba, 4464313 Israel | |
4 Ha'Horesh Road Yehud 5647003 Israel | |
Boğaziçi Teknopark 305 Istanbul, 34470 Turkey | |
Bucheon Techno Park Seokcheon-ro 345 Ojeong-gu, Bucheon-si Gyeonggi-do, 14501 Korea | |
Wavelength Opto-Electronic (S) Pte Ltd BLK 2 Bukit Batok St. 24, #06–01/03/09 Skytech Building Singapore 659480 | |
Number 80, Fifth High-tech Street Donghu Development Zone 430205, Wuhan China | |
Outside Asia: | |
Assar-Gabrielsson-Straße 1 63128 Dietzenbach Germany | |
2700 E. Bilby Rd. Tucson, AZ 85706 United States | |
9 Trinity Drive West Springfield, MA 01089 United States | |
815 Carriere Blvd, suite 202 Gatineau, QC, J*Y6T4 Canada | |
Bertha-von-Suttner-Str. 5 37085 Göttingen Germany | |
201 South Wallace St, Suite B-2C Bozeman, MT 59715 United States | |
Kaiserstrasse 100 52134 Herzogenrath Germany | |
Flatåstoppen 59 7079 Flatåsen Trondheim Norway | |
P. N. Lebedev Physical Institute 11 Fizicheskaya Street 108840 Troitsk, Moscow Russian Federation | |
Aminogatan 34 43153 Mölndal Sweden | |
Biophotonics Solutions Inc. Laboratories 1401 East Lansing Drive, Suite 112 East Lansing, MI 48823 United States | www.biophotonicsolutions.com Tel.: +1 517 580 4075 |
951 Commercial Street Palo Alto, CA 94303 United States | |
Livingstone House 43 Discovery Terrace Edinburgh EH14 4AP United Kingdom | www.chromacitylasers.com Tel.: +44 131 449 4308 |
7300 West Huron River Drive Dexter, Michigan 48130 United States | |
Extreme power at extreme wavelength Deutsches Elektronensynchrotron DESY Notkestr. 85 22607 Hamburg Germany | Class 5 Photonics offer powerful and high-performance femtosecond lasers based on optical parametric chirped pulse amplification (OPCPA): - 5 W to 100 W average power for demanding applications - pulse duration from 100 fs down to 9 fs - pumped by industrial Yb:fiber or Yb:YAG amplifiers - CEP stability available - add-ons: EUV to MID-IR wavelength extension Extreme power at extreme wavelengths with award-winning products serving the ultrafast community with wavelengths ranging from high-flux extreme-ultraviolet (XUV) to high-field Terahertz – enabling researchers in physics, chemistry, and biology to conduct outstanding research at the frontiers of their fields. |
5100 Patrick Henry Drive Santa Clara, CA 95054 United States | |
1195 Pennsylvania Avenue Bethlehem, PA 18018–2026 United States | |
Notkestrasse 85 22607 Hamburg Germany | |
Rotebühlstr. 87 70178 Stuttgart Germany | |
4119 Twilight Ridge San Diego, CA 92130 United States | |
Savanoriu Av. 237 02300 Vilnius Lithuania Quality: ISO 9001 | EKSPLA offers a wide range of femtosecond lasers for various applications: - FemtoLux3 series microjoule class industrial fiber laser - Ultraflux series femtosecond tunable wavelength laser based on the novel OPCPA technology - FF200 series compact fiber laser |
46708 Lakeview Blvd Fremont, CA 94538 United States | www.elixirphotonics.com Tel.: +1 510 687 1910 |
Advanced Technology Innovation Centre Loughborough University Science and Enterprise Parks 5 Oakwood Drive Loughborough LE11 3QF United Kingdom | |
Profsoyuznaya, 93-A, 404 117279, Moscow Russia | |
9267 Research Drive Irvine, CA 92618 United States | femtoblanc.com Tel.: +1 408 409 2900 |
20 Compass Point Ensign Way Southampton SO31 4RA United Kingdom | |
Ultrafast lasers that simply work Kasprzaka 44/52 01–224 Warszawa Poland | Halite is a compact, single-box, all-fiber femtosecond laser, specifically designed to meet the most demanding applications in the field of neuroscience, biophotonics, microscopy and engineering. With pulses as short as <180 fs, average power up to 2 W at 1030 nm and the option of second harmonic generation at 515 nm, it is an irreplaceable tool in every lab that needs a reliable, turn-key, ultrafast light source. Thanks to its unique construction and SESAM-free technology it is a cost-effective solution that provides high pulse energy (up to 100 nJ) and an excellent beam quality. Halite’s industrial design facilitates easy integration with both experimental and commercial systems. |
Ronda de Guglielmo Marconi, 12, 46980 Paterna, València Spain | |
Dübendorfstr. 11a 8117 Fällanden Switzerland | |
5984 Rollingwood Dr Ann Arbor, MI 48103 United States | |
1044 Woodridge Avenue Ann Arbor, Michigan 48105 United States | |
Justus-von-Liebig-Ring 8 82152 Krailling Germany | |
Goeschwitzer Strasse 29 07745 Jena Germany | |
Johnson & Johnson Surgical Vision, Inc. 1700 E. St. Andrew Place Santa Ana, CA 92705 United States | |
Leading in Ultrafast Kapteyn-Murnane Laboratories Inc. 4775 Walnut St. #102 Boulder, CO 80301 United States | KMLabs is the only commercial provider for comprehensive, end-to-end research systems that leverage ultrafast pulses of extreme UV and soft X-ray light for a variety of experiments. The QM Quantum Microscope™ builds on the company’s world leading technology in high harmonic generation to enable a range of techniques including coherent diffraction imaging, photoemission, pump–probe spectroscopy, and EUV metrology. In addition, KMLabs continues to pioneer the development and engineering of standalone short wavelength sources including the Hyperion VUV laboratory-based vacuum ultraviolet femtosecond laser source, and the Pantheon™ platform, a pulsed EUV source-beamline to generate and deliver EUV photons to user-supplied experimental stations. |
Argelsrieder Feld 14 82234 Wessling Germany | |
Emery Court Stockport, Cheshire SK4 3GL United Kingdom www.laserquantum.com Social: Facebook, LinkedIn, Twitter, YouTube E-mail: Tel.: +44 161 975 5300 Fax: +44 161 975 5309 | Laser Quantum specialise in femtosecond laser systems with ultra-short pulses and high repetition rates that offer unique capabilities and benefits to a wide variety of scientific applications. |
Do you have a femtosecond? Keramiku 2B 10233 Vilnius Lithuania Quality: ISO 9001:2015 www.lightcon.com Social: Facebook, LinkedIn, YouTube E-mail: E-mail: (South Korea) E-mail: (Japan) E-mail: (China) Tel.: +370 52 49 18 30 Tel.: +82 42 368 1010 (Korea) Tel.: +81 48 871 0067 (Japan) Tel.: +86 158 7551 0400 (China) | The PHAROS is a femtosecond laser system combining millijoule pulse energies and high average powers. PHAROS features a mechanical and optical design optimized for industrial applications such as precise material processing. Compact size, integrated thermal stabilization system and sealed design allow PHAROS integration into machining workstations. The use of solid state laser diodes for pumping of Yb medium significantly reduces maintenance cost and provides long laser lifetime. Tunable PHAROS parameters include: pulse duration (190 fs – 20 ps), repetition rate (single pulse to 1 MHz), pulse energy (up to 2 mJ) and average power (up to 20 W). Its deliverable power is sufficient for most of material processing applications at high machining speeds. The built-in pulse picker allows convenient control of the laser output in pulse on demand mode. The compact and robust optomechanical design features of PHAROS lead to stable laser operation in varying environments. The PHAROS laser can be equipped with automated harmonics modules. A selection of fundamental (1030 nm), second (515 nm), third (343 nm), fourth (257 nm) or fifth (206 nm) harmonic outputs are available through software control. Harmonics generators are designed to be used in industrial applications where a single output wavelength is desired. Modules are mounted directly on the output of the laser and integrated into the system. PHAROS has an option for tunable GHz and MHz burst with burst-in-burst capability – called BiBurst. The distance between burst packet groups is called nanosecond burst, N (MHz-Burst). The distance between sub-pulses in the group is called picosecond burst, P (GHz-Burst). In single pulse mode, one pulse is emitted at a time at some fixed frequency. In burst mode, the output consists of several picosecond burst packets each separated by an equal time period between each packet. Each packet can contain a number of sub-pulses which are also separated by an equal time period between each pulse. High pulse energy femtosecond laser with 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. BiBurst material fabrication areas cover: - brittle material drilling and cutting - deep engraving - selective ablation - transparent materials volume modification - hidden marking - surface functional structuring |
Venture Building 1 Kelvin Campus West of Scotland Science Park Maryhill Rd Glasgow, G20 0SP United Kingdom | |
340 El Pueblo Rd Suite C Scotts Valley, CA 95066 United States | |
P.O. Box 1000 Frederick, CO 80530 United States | www.meadowlark.com Tel.: +1 303 833 4333 |
Thiersteinerallee 71 4053 Basel Switzerland | Menhir Photonics offers ultrafast mode-locked lasers at 1.5 μm wavelength. These lasers offer pulse width below 200 fs and fundamental pulse repetition rates that can be chosen from 250 MHz up to 2.5 GHz. These systems are hermetically sealed and all-in-one (laser and electronic is one box). Menhir Photonics’ products have been designed to achieve ultra-low-noise performances combined with high-reliability and robustness, to ensure that they can be used in any situation from laboratory setup to harsh environments. |
Precision in photonics. Together we shape light. Am Klopferspitz 19a 82152 Martinsried Germany Quality: ISO 9001:2015 www.menlosystems.com Social: LinkedIn, YouTube E-mail: E-mail: (for North America) Tel.: +49 89 1 89 16 60 Fax: +49 89 1 89 16 61 11 | Menlo Systems' femtosecond fiber lasers based on Menlo figure 9® patented laser technology are unique in regard to user-friendliness and robustness. We offer solutions for scientific research as well as laser models engineered for OEM integration. From the shortest pulses to highest average power beyond 10 Watts and pulse energy beyond 10 μJ, we have the solution for your application ranging from basic research to industrial applications in spectroscopy, quality control, and material processing. |
Im Holderlob 6A 6840 Götzis Austria | |
137 avenue Anatole France, 94600 Choisy le Roi France | |
Special Fiber Optics Olomoucka 91 627 00 Brno Czech Republic | |
New Technologies and Consulting Hauptstrasse 52 67297 Marnheim Germany | |
Blokken 84 3460 Birkerød Denmark Quality: ISO 9000:2015 www.nktphotonics.com Social: Facebook, LinkedIn, Twitter, YouTube Tel.: +45 4348 39 00 Fax: +45 4348 39 01 | Origami is our ultra-stable passively mode-locked laser platform, it exhibits the lowest phase noise on the market. A special hybrid laser setup, consisting of state-of-the-art polarization maintaining (PM) fiber technology and free-space sections for advanced dispersion control, allows for high pulse energy generation while supporting perfectly transform-limited soliton pulses without spectral ripples, excess of optical bandwidth, Kelly-sidebands, temporal pedestals or satellite pulses. The Origami lasers are designed for all precision applications, scientific or industrial, requiring long-term amplitude stability, low phase noise and timing jitter, compact and rugged design and 24/7 maintenance-free operation. |
ZI du Moulin Cheyroux 87700 Aixe sur Vienne France | |
7639 Cordner Lasalle, Quebec H8N 2X2 Canada | |
Parc Club Orsay Universite 29 rue Jean Rostand 91893 Orsay France | |
Max-Planck-Straße 3 85716 Unterschleißheim Germany | |
Physics Instrumentation Center Prokhorov General Physics Institute, RAS, Troitsk Moscow, 108840 Russia | |
Unit 2.2 Quantum Court Heriot-Watt University Research Park Edinburgh, EH14 4AP United Kingdom | |
PhotoScribe Technologies, Inc. 35 West 45th Street New York, NY 10036 United States | |
470 Lakeside Drive, Suite F Sunnyvale CA 94085 United States | |
Polytec-Platz 1–7 76337 Waldbronn Germany | www.polytec.com/eu Tel.: +49 7243 6 04 17 20 |
Dr. Róbert Szipõcs P. O. Box 622 1539 Budapest Hungary | |
8495 Veterans Memorial Pkwy O’Fallon MO 63366 United States | RPMC Lasers offers mode locked femtosecond fiber lasers from 400 fs down to <140 fs, with average powers up to 50 W and wavelengths of 1040, 1035, 920 and 515 nm. |
4 Stebenev lane Minsk, 220024 Belarus | |
Soliton Laser- und Messtechnik GmbH Talhofstr. 32 82205 Gilching Germany | |
Technopôle Montesquieu 12, allee Isaac Newton 33650- Martillac France | |
3635 Peterson Way Santa Clara, CA 95054 United States | |
Kapfstr. 27 70771 Leinfelden-Echterdingen Germany | |
Nieder-Ramstädter-Str. 247 64285 Darmstadt Germany | |
All wavelengths. Lochhamer Schlag 19 82166 Gräfelfing Germany Quality: ISO 9001:2015 www.toptica.com Social: Facebook, LinkedIn, YouTube E-mail: Tel.: +49 89 85 83 70 Fax: +49 89 85 83 72 00 | With more than 15 years of experience, TOPTICA provides high-repetitive femtosecond lasers based on erbium- and ytterbium fiber laser technology. TOPTICA offers systems for OEM integrators as well as customized solutions for scientific customers, ranging from compact fiber-based seeders / oscillators to custom-tailored high-power amplifiers. |
TRUMPF Laser- und Systemtechnik GmbH Johann-Maus-Str. 2 71254 Ditzingen Germany | |
TRUMPF Scientific Lasers GmbH + Co. KG Feringastr. 10 85774 Unterföhring Germany | |
130-A Knickerbocker Avenue Bohemia, NY 11716 United States | |
Hollerithallee 17 30419 Hannover Germany | www.valo-innovations.com Tel.: +49 511 260 390 70 |
Allmendstrasse 11 2562 Port Switzerland | |
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