highly frequency ti sapphire crystal ued tsunami laser used laser

  • Highly Frequency Ti Sapphire Crystal Used In Laser - Buy

    Highly Frequency Ti Sapphire Crystal Used In Laser, Find Complete Details about Highly Frequency Ti Sapphire Crystal Used In Laser,Regenerative Amplifiers Ti Sapphire Crystal,Titanium Sapphire Ued In Tsunami Laser,Laser Crystal from Laser Equipment Parts Supplier or Manufacturer-Nanjing MetaLaser Photonics Co., Ltd.

    Get Price
  • Ultrafast operation of a mode-locked Ti:sapphire laser

    2015-5-4u2002·u2002rors and crystal are correctly compensated. [1] This AP304 lab traditionally uses a Tsunami Ti:sapphire laser, but in this report, we opt instead to discuss recent measurements made in the Mabuchi Lab to characterize a KM Labs Model MTS Mini Ti:sapphire laser to be used for future experiments in nonlinear and ultrafast optics.

    Get Price
  • Ti:Sapphire Lasers - Universiteit Utrecht

    2015-4-30u2002·u2002The titanium-sapphire laser (Ti:Sapphire) presently is a favored laser for high-intensity and ultra-short pulsed lasing purposes in the red and infra-red regime. Ti:Sapphire based lasers were rst constructed in 1982 succeeding previous ruby lasers by doping the sapphire crystal with titanium. The resulting solid state laser be-

    Get Price
  • (PDF) High-repetition-rate high-average-power 300-fs

    The reason is described below. (Ref. 9) (the maximum average power is 2.3 W even for The pulse width is stretched from 140 fs to,200 ps by a 10-Hz system12). a conventional stretcher9 consisting of a grating with For high average power an excimer laser is superior to a Ti:sapphire laser because it is a primary laser source.

    Get Price
  • 1 200062, China In-Press

    2017-2-14u2002·u2002Fig.1(a), the repetition rate of the Ti:sapphire laser oscillator (Tsunami, Spectra-physics) is locked to an 80-MHz RF sig-nal generator (N5181B, Agilent) by a phase lock loop (PLL) in the laser system. The PLL device is used to change the oscillator cavity length

    Get Price
  • Real-time second-harmonic-generation microscopy based on a

    2016-4-15u2002·u2002laser we used for comparison is a Gigajet 30 laser from GigaOptics GmbH, whose laser has a specially designed cavity built on dispersive mirrors that allows pulsed Ti:sapphire laser oscillation with repetition frequencies up to 2-GHz. The corresponding cavity length of only 150-mm features an extremely compact system.

    Get Price
  • E.€Räikkönen,€M.€Kaivola,€and€S.€C.€Buchter.€2006.€Compact€supercontinuum€source

    2009-7-6u2002·u2002Thelayoutofthegain-switchedTi:Sapphire-laser-pumpedSC sourceisshowninFigure1.Thethreemainpartsofthesystem are the pulsed frequency-doubled Nd:YAG laser, the minia-ture Ti:Sapphire-laser, and the microstructured optical fiber. The homemade compact-sized Nd:YAG laser is used to pro-duce high-energy pump pulses for the Ti:Sapphire …

    Get Price
  • Using Ultra-Fast Spectroscopy to Probe the Excited State

    82 MHz. This Ti-sapphire mode-locked laser was pumped by a 532 nm CW laser (Spectra-Physics Millennia), which has a gain medium of neodymium-doped yttrium vanadate (Nd:YVO4). After the 800 nm pulsed beam is generated, a second harmonic (β- barium borate crystal) generates a 400 nm excitation pulse. The residual 800 nm beam was directed to pass ...

    Get Price
  • Leader in Laser Solutions and Photonics Technology - Coherent,

    2 days agou2002·u2002Introducing ExactWeld IP – The Easiest Way To Put Polymer Welding On Your Production Line. ExactWeld IP is a complete polymer welding solution, integrating laser source, beam delivery system, part clamping mechanics, and all the required control hardware and software. With adapters for conveyor belt, rotary table, or robot arm part supply, it ...

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  • Ultrafast visualization of phase transitions in nonequilibrium warm

    2021-8-6u2002·u2002Intense ultrafast laser excitation brings materials into highly nonequilibrium states with complex solid–liquid phase transitions. These ultrafast processes yield warm dense matter (WDM) conditions characterized by comparable thermal and Fermi energies, and strong ion–ion coupling. Here, we review recent studies employing mega-electron-volt ultrafast electron diffraction to …

    Get Price
  • Highly Frequency Ti Sapphire Crystal Used In Laser - Buy

    Highly Frequency Ti Sapphire Crystal Used In Laser, Find Complete Details about Highly Frequency Ti Sapphire Crystal Used In Laser,Regenerative Amplifiers Ti Sapphire Crystal,Titanium Sapphire Ued In Tsunami Laser,Laser Crystal from Laser Equipment Parts Supplier or Manufacturer-Nanjing MetaLaser Photonics Co., Ltd.

    Get Price
  • Ultrafast operation of a mode-locked Ti:sapphire laser

    2015-5-4u2002·u2002rors and crystal are correctly compensated. [1] This AP304 lab traditionally uses a Tsunami Ti:sapphire laser, but in this report, we opt instead to discuss recent measurements made in the Mabuchi Lab to characterize a KM Labs Model MTS Mini Ti:sapphire laser to be used for future experiments in nonlinear and ultrafast optics.

    Get Price
  • Ti:Sapphire Lasers - Universiteit Utrecht

    2015-4-30u2002·u2002The titanium-sapphire laser (Ti:Sapphire) presently is a favored laser for high-intensity and ultra-short pulsed lasing purposes in the red and infra-red regime. Ti:Sapphire based lasers were rst constructed in 1982 succeeding previous ruby lasers by doping the sapphire crystal with titanium. The resulting solid state laser be-

    Get Price
  • (PDF) High-repetition-rate high-average-power 300-fs

    The reason is described below. (Ref. 9) (the maximum average power is 2.3 W even for The pulse width is stretched from 140 fs to,200 ps by a 10-Hz system12). a conventional stretcher9 consisting of a grating with For high average power an excimer laser is superior to a Ti:sapphire laser because it is a primary laser source.

    Get Price
  • 1 200062, China In-Press

    2017-2-14u2002·u2002Fig.1(a), the repetition rate of the Ti:sapphire laser oscillator (Tsunami, Spectra-physics) is locked to an 80-MHz RF sig-nal generator (N5181B, Agilent) by a phase lock loop (PLL) in the laser system. The PLL device is used to change the oscillator cavity length

    Get Price
  • Real-time second-harmonic-generation microscopy

    2016-4-15u2002·u2002laser we used for comparison is a Gigajet 30 laser from GigaOptics GmbH, whose laser has a specially designed cavity built on dispersive mirrors that allows pulsed Ti:sapphire laser oscillation with repetition frequencies up to 2-GHz. The corresponding cavity length of only 150-mm features an extremely compact system.

    Get Price
  • E.€Räikkönen,€M.€Kaivola,€and€S.€C.€Buchter.€2006.€Compact€supercontinuum€source

    2009-7-6u2002·u2002Thelayoutofthegain-switchedTi:Sapphire-laser-pumpedSC sourceisshowninFigure1.Thethreemainpartsofthesystem are the pulsed frequency-doubled Nd:YAG laser, the minia-ture Ti:Sapphire-laser, and the microstructured optical fiber. The homemade compact-sized Nd:YAG laser is used to pro-duce high-energy pump pulses for the …

    Get Price
  • Using Ultra-Fast Spectroscopy to Probe the Excited State

    82 MHz. This Ti-sapphire mode-locked laser was pumped by a 532 nm CW laser (Spectra-Physics Millennia), which has a gain medium of neodymium-doped yttrium vanadate (Nd:YVO4). After the 800 nm pulsed beam is generated, a second harmonic (β- barium borate crystal) generates a 400 nm excitation pulse. The residual 800 nm beam was directed to pass ...

    Get Price
  • Leader in Laser Solutions and Photonics Technology -

    2 days agou2002·u2002Introducing ExactWeld IP – The Easiest Way To Put Polymer Welding On Your Production Line. ExactWeld IP is a complete polymer welding solution, integrating laser source, beam delivery system, part clamping mechanics, and all the required control hardware and software. With adapters for conveyor belt, rotary table, or robot arm part supply, it ...

    Get Price
  • Ultrafast visualization of phase transitions in

    2021-8-6u2002·u2002Intense ultrafast laser excitation brings materials into highly nonequilibrium states with complex solid–liquid phase transitions. These ultrafast processes yield warm dense matter (WDM) conditions characterized by comparable thermal and Fermi energies, and strong ion–ion coupling. Here, we review recent studies employing mega-electron-volt ultrafast electron diffraction to …

    Get Price
  • Highly Frequency Ti Sapphire Crystal Used In Laser - Buy

    Highly Frequency Ti Sapphire Crystal Used In Laser, Find Complete Details about Highly Frequency Ti Sapphire Crystal Used In Laser,Regenerative Amplifiers Ti Sapphire Crystal,Titanium Sapphire Ued In Tsunami Laser,Laser Crystal from Laser Equipment Parts Supplier or Manufacturer-Nanjing MetaLaser Photonics Co., Ltd.

    Get Price
  • Ultrafast operation of a mode-locked Ti:sapphire laser

    2015-5-4u2002·u2002rors and crystal are correctly compensated. [1] This AP304 lab traditionally uses a Tsunami Ti:sapphire laser, but in this report, we opt instead to discuss recent measurements made in the Mabuchi Lab to characterize a KM Labs Model MTS Mini Ti:sapphire laser to be used for future experiments in nonlinear and ultrafast optics.

    Get Price
  • Ti:Sapphire Lasers - Universiteit Utrecht

    2015-4-30u2002·u2002The titanium-sapphire laser (Ti:Sapphire) presently is a favored laser for high-intensity and ultra-short pulsed lasing purposes in the red and infra-red regime. Ti:Sapphire based lasers were rst constructed in 1982 succeeding previous ruby lasers by doping the sapphire crystal with titanium. The resulting solid state laser be-

    Get Price
  • (PDF) High-repetition-rate high-average-power 300-fs

    The reason is described below. (Ref. 9) (the maximum average power is 2.3 W even for The pulse width is stretched from 140 fs to,200 ps by a 10-Hz system12). a conventional stretcher9 consisting of a grating with For high average power an excimer laser is superior to a Ti:sapphire laser because it is a primary laser source.

    Get Price
  • 1 200062, China In-Press

    2017-2-14u2002·u2002Fig.1(a), the repetition rate of the Ti:sapphire laser oscillator (Tsunami, Spectra-physics) is locked to an 80-MHz RF sig-nal generator (N5181B, Agilent) by a phase lock loop (PLL) in the laser system. The PLL device is used to change the oscillator cavity length

    Get Price
  • Real-time second-harmonic-generation microscopy based on a

    2016-4-15u2002·u2002laser we used for comparison is a Gigajet 30 laser from GigaOptics GmbH, whose laser has a specially designed cavity built on dispersive mirrors that allows pulsed Ti:sapphire laser oscillation with repetition frequencies up to 2-GHz. The corresponding cavity length of only 150-mm features an extremely compact system.

    Get Price
  • E.€Räikkönen,€M.€Kaivola,€and€S.€C.€Buchter.€2006.€Compact€supercontinuum€source

    2009-7-6u2002·u2002Thelayoutofthegain-switchedTi:Sapphire-laser-pumpedSC sourceisshowninFigure1.Thethreemainpartsofthesystem are the pulsed frequency-doubled Nd:YAG laser, the minia-ture Ti:Sapphire-laser, and the microstructured optical fiber. The homemade compact-sized Nd:YAG laser is used to pro-duce high-energy pump pulses for the Ti:Sapphire …

    Get Price
  • Using Ultra-Fast Spectroscopy to Probe the Excited State

    82 MHz. This Ti-sapphire mode-locked laser was pumped by a 532 nm CW laser (Spectra-Physics Millennia), which has a gain medium of neodymium-doped yttrium vanadate (Nd:YVO4). After the 800 nm pulsed beam is generated, a second harmonic (β- barium borate crystal) generates a 400 nm excitation pulse. The residual 800 nm beam was directed to pass ...

    Get Price
  • Leader in Laser Solutions and Photonics Technology - Coherent,

    2 days agou2002·u2002Introducing ExactWeld IP – The Easiest Way To Put Polymer Welding On Your Production Line. ExactWeld IP is a complete polymer welding solution, integrating laser source, beam delivery system, part clamping mechanics, and all the required control hardware and software. With adapters for conveyor belt, rotary table, or robot arm part supply, it ...

    Get Price
  • Ultrafast visualization of phase transitions in nonequilibrium warm

    2021-8-6u2002·u2002Intense ultrafast laser excitation brings materials into highly nonequilibrium states with complex solid–liquid phase transitions. These ultrafast processes yield warm dense matter (WDM) conditions characterized by comparable thermal and Fermi energies, and strong ion–ion coupling. Here, we review recent studies employing mega-electron-volt ultrafast electron diffraction to …

    Get Price
  • Femtosecond Synchronously Pumped Parametric Oscillator

    2005-4-13u2002·u2002the Tsunami™ ultrafast Ti:sapphire laser by extending its output into the infrared. In addition, Opal also provides frequency-doubled access to the 'missing' visible region not accessible by Ti:sapphire alone. Opal features all solid-state construction for maximum reliability and ruggedness. It is a highly compact, turnkey instrument,

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  • Confocal Imaging of Biological Tissues Using Second ...

    We used a Ti:Sapphire (Spectra-Physics Tsunami) ocscillat0r pumped by a 5 frequency-doubled Nd-YAG (Spectra-Physics Merlin) laser to produce 100 fs, 800 pulses at a repetition rate of 82 MHz. The laser beam passes through a 1.5 kHz optical chopper for lock-in amplification of the signal. The laser intensity is controlled using a

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  • Efficient photoionization loading of trapped ions with ...

    2007-1-4u2002·u2002mode-locked Ti:sapphire laser Spectra-Physics Tsunami, producing pulse energies up to 12 nJ at 915 nm. A second-harmonic-generation autocorrelator is used to measure the pulse duration of approximately 2 ps. The infrared pulses are frequency doubled in a 12-mm-long lithium borate LBO crystal and doubled again in a 10-mm-long -barium borate BBO ...

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  • Unmatched simplicity and performance for ultrafast ...

    2021-5-25u2002·u2002titanium:sapphire (Ti:S) lasers is a series of versatile,easy-to-use laser systems designed specifically for the varying demands of ultra-fastapplications in scientific research.From time-resolved photoluminescence to pump-probe spectroscopy,from non-linear optics to …

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  • Ultrafast Electron Microscopy with Relativistic ...

    2018-6-15u2002·u2002A femtosecond Ti:sapphire laser (Spectra-Physics) is used to generate femtosecond electron beam pulses and to excite the specimen. The laser consists of a Ti:sapphire laser oscillator with a pulse width of 90 fs (Tsunami, central wavelength: 800 nm), regenerative amplifier including a pulse compressor, and a wavelength converter.

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  • Conformational Steering in Substituted Poly(3,6 ...

    2016-5-25u2002·u2002solvent used are given in parenthesis. The hyper-Rayleigh scattering HRS experiments are performed at a fundamental wavelength of 800nm. A mode-locked Ti:sapphire (Spectra-Physics, model tsunami) laser with fs-laserpulses was used for high frequency demodulation technique. This technique was used to discriminate between the hyper-

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  • Phase separation and pattern instability of laser-induced ...

    2011-11-8u2002·u2002wave plate (HWP) is used to rotate the polarization of writing pulses. The translational stage is used to control the scanning rate of our focused beam. formations in a liquid-crystal-monomer mixture. With adds of photo-initiators, polymerization is induced directly by a ultra-short frequency-doubled Ti:sapphire laser at the wavelength of 400nm.

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  • A new route for caesium lead halide perovskite deposition ...

    2021-6-2u2002·u2002The excitation source was provided by a mode-locked Ti:Sapphire tunable laser (Spectra Physics Tsunami, 700-900 nm spectral range, 200 fs pulse duration, 12.2 ns pulse period) frequency doubled by a BBO crystal and pumped by a frequency doubled CW Nd-YAG laser.

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  • (PDF) Terahertz Generation in Lithium Niobate Driven by Ti ...

    2014-6-19u2002·u2002We experimentally investigate the limits of 800-nm-to-terahertz (THz) energy conversion in lithium niobate at room. temperature driven by amplified Ti:sapphire laser pulses with tilted pulse front ...

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  • A pulsed electron gun for ultrafast electron diffraction ...

    2007-10-4u2002·u2002shown in Fig. 1. A 45 fs-laser pulse from a Ti:sapphire laser system wavelength 800 nm is split into two beams. The first traverses an optical delay line and is then used to excite the sample surface pump . The second is frequency-tripled in a two-step process using nonlinear optical crystals-barium borate, BBO, resulting in ultraviolet UV laser

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  • Highly Frequency Ti Sapphire Crystal Used In Laser - Buy

    Highly Frequency Ti Sapphire Crystal Used In Laser, Find Complete Details about Highly Frequency Ti Sapphire Crystal Used In Laser,Regenerative Amplifiers Ti Sapphire Crystal,Titanium Sapphire Ued In Tsunami Laser,Laser Crystal from Laser Equipment Parts Supplier or Manufacturer-Nanjing MetaLaser Photonics Co., Ltd.

    Get Price
  • Ultrafast operation of a mode-locked Ti:sapphire laser

    2015-5-4u2002·u2002rors and crystal are correctly compensated. [1] This AP304 lab traditionally uses a Tsunami Ti:sapphire laser, but in this report, we opt instead to discuss recent measurements made in the Mabuchi Lab to characterize a KM Labs Model MTS Mini Ti:sapphire laser to be used for future experiments in nonlinear and ultrafast optics.

    Get Price
  • Ti:Sapphire Lasers - Universiteit Utrecht

    2015-4-30u2002·u2002The titanium-sapphire laser (Ti:Sapphire) presently is a favored laser for high-intensity and ultra-short pulsed lasing purposes in the red and infra-red regime. Ti:Sapphire based lasers were rst constructed in 1982 succeeding previous ruby lasers by doping the sapphire crystal with titanium. The resulting solid state laser be-

    Get Price
  • (PDF) High-repetition-rate high-average-power 300-fs

    The reason is described below. (Ref. 9) (the maximum average power is 2.3 W even for The pulse width is stretched from 140 fs to,200 ps by a 10-Hz system12). a conventional stretcher9 consisting of a grating with For high average power an excimer laser is superior to a Ti:sapphire laser because it is a primary laser source.

    Get Price
  • 1 200062, China In-Press

    2017-2-14u2002·u2002Fig.1(a), the repetition rate of the Ti:sapphire laser oscillator (Tsunami, Spectra-physics) is locked to an 80-MHz RF sig-nal generator (N5181B, Agilent) by a phase lock loop (PLL) in the laser system. The PLL device is used to change the oscillator cavity length

    Get Price
  • Real-time second-harmonic-generation microscopy

    2016-4-15u2002·u2002laser we used for comparison is a Gigajet 30 laser from GigaOptics GmbH, whose laser has a specially designed cavity built on dispersive mirrors that allows pulsed Ti:sapphire laser oscillation with repetition frequencies up to 2-GHz. The corresponding cavity length of only 150-mm features an extremely compact system.

    Get Price
  • E.€Räikkönen,€M.€Kaivola,€and€S.€C.€Buchter.€2006.€Compact€supercontinuum€source

    2009-7-6u2002·u2002Thelayoutofthegain-switchedTi:Sapphire-laser-pumpedSC sourceisshowninFigure1.Thethreemainpartsofthesystem are the pulsed frequency-doubled Nd:YAG laser, the minia-ture Ti:Sapphire-laser, and the microstructured optical fiber. The homemade compact-sized Nd:YAG laser is used to pro-duce high-energy pump pulses for the …

    Get Price
  • Using Ultra-Fast Spectroscopy to Probe the Excited State

    82 MHz. This Ti-sapphire mode-locked laser was pumped by a 532 nm CW laser (Spectra-Physics Millennia), which has a gain medium of neodymium-doped yttrium vanadate (Nd:YVO4). After the 800 nm pulsed beam is generated, a second harmonic (β- barium borate crystal) generates a 400 nm excitation pulse. The residual 800 nm beam was directed to pass ...

    Get Price
  • Leader in Laser Solutions and Photonics Technology -

    2 days agou2002·u2002Introducing ExactWeld IP – The Easiest Way To Put Polymer Welding On Your Production Line. ExactWeld IP is a complete polymer welding solution, integrating laser source, beam delivery system, part clamping mechanics, and all the required control hardware and software. With adapters for conveyor belt, rotary table, or robot arm part supply, it ...

    Get Price
  • Ultrafast visualization of phase transitions in

    2021-8-6u2002·u2002Intense ultrafast laser excitation brings materials into highly nonequilibrium states with complex solid–liquid phase transitions. These ultrafast processes yield warm dense matter (WDM) conditions characterized by comparable thermal and Fermi energies, and strong ion–ion coupling. Here, we review recent studies employing mega-electron-volt ultrafast electron diffraction to …

    Get Price
  • Cavity-dumped femtosecond optical parametric oscillator

    2019-6-16u2002·u2002was synchronously pumped by a femtosecond Ti:sapphire laser (Tsunami, Spectra-Physics) that delivers 1W at 800 this is the highest pulse energy directly from an OPO opernm at a repetition rate of 81.5 MHz. The Ti:sapphire laser was pumped by 5.5W output from a diode-pumped solid state by the available pump power. The OPO is remarkably sta

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  • Compressing ultrafast electron pulse by radio frequency cavity -

    2017-5-2u2002·u2002In Fig. 1(a), the repetition rate of the Ti:sapphire laser oscillator (Tsunami, Spectra-physics) is locked to an 80-MHz RF signal generator (N5181B, Agilent) by a phase lock loop (PLL) in the laser system. The PLL device is used to change the oscillator cavity length by controlling a piezo-electric transducer (PZT), and finally realizes the ...

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  • Intensity and polarization dependences of the supercontinuum

    2020-1-31u2002·u2002locked femtosecond Ti:Sapphire laser system (Spectra-Physics Tsunami) capable of developing laser pulses in the 100 femtosecond (FWHM) range at a 81 MHz repetition rate for a maximum average output power of 1W. In order to avoid any retro-reflections toward the laser, a Faraday isolator is placed just after the output of the Ti:Sapphire oscillator.

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  • Point-by-point inscription of 250-nm-period structure in bulk

    2017-2-7u2002·u2002Femtosecond pulses at 800 nm were produced by a Ti:sapphire chirped pulse amplification laser system consisting of a „Tsunami' oscillator a nd a „Spitfire' amplifier (both from Spectra-Physics). The laser system delivered 0.8 mJ pulses with 150 fs duration and 1 kHz repetition rate. The IR beam diameter after the amplifier was 2.5 mm at ...

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  • Ultrafast, Optical Parametric Chirped -pulse Amplification

    2020-2-21u2002·u2002erate sub-100fs intense laser pulse when we compress 5 ps idler pulses. 3. Experimental setup The experimental setup is shown in Fig.2. An output pulse with 1020 nm center wavelength from a mode-locked Ti:sapphire oscillator (Spectra Physics:TSUNAMI) was split into two beams. Each beam was used as the seed pulse

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  • Supporting Information - Royal Society of Chemistry

    2016-2-23u2002·u2002Ti:Sapphire regenerative amplifier (Spitfire Pro XP, Spectra-Physics) working with an 800 nm output. A Mai Tai laser composed of a mode-locked Titanium-doped sapphire (Ti3+:Al 2 O 3) laser (Tsunami) and of a diode-pumped continuous wave Nd:YVO 4 laser (Millennia). The former was used as the seeding laser for the regenerative amplifier.

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  • Latent laser-induced graphitization of diamond

    2016-3-3u2002·u2002The laser system used consists of the Tsunami Ti:sapphire oscillator and Spitfire regenerative amplifier (Spectra Physics), which emits (tau = 100;hbox{fs}) pulses at the wavelength of (lambda = 800) nm with repetition rate of 1 kHz (Fig. 1a). Two crystals β-BaB 2 O 4 (BBO) were used for the second and third harmonic generation of the 800 nm pulses.

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  • Multi-pulse laser-induced bubble formation and nanoparticle ... -

    2020-9-25u2002·u2002The laser properties (center wavelength and bandwidth) of the Ti:Sapphire oscillator were modified in order to control the proportion of pulse power that is reflected by the 3 nm bandpass filter ...

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  • Kobe University Repository : Kernel

    2017-12-19u2002·u2002tal light from the Ti:sapphire laser has a pulse width of about 50 fs, pulse energy of about 9 nJ, wavelength of about 750 nm, and a repetition frequency of 82 MHz. The second har-monic light, with a photon energy of around 3.3 eV, was generated by using a 250-mm-thick beta barium borate dou-bling crystal ~TP-1B Tripler, Uniwave Technology Co ...

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  • Large-mode-area Nd-doped single-transverse-mode dual

    A novel design for a microstructure fiber (MSF) laser consisting of a large core and a single annulus of 5 air holes is described. The fiber design incorporates a silica core that was doped in the liquid phase with 1300 ppm Nd2O3. The light guiding losses in the structurally very simple MSF are ≈0.7 dB/m. Single transverse mode emission is demonstrated with a mode field area larger than 200 ...

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