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Conference on Lasers and Electro-Optics-Europe, 1998
The development of miniaturised diode pumped solid-state laser systems has received much attention due to their enormous potential for widespread applications. Consequently there is a great interest in fiber lasers based on crystal hosts, despite the technological difficulties to draw such fibers. Composite structures of thermally bonded crystals offer
H. Schonnagel, U. Griebner
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The development of miniaturised diode pumped solid-state laser systems has received much attention due to their enormous potential for widespread applications. Consequently there is a great interest in fiber lasers based on crystal hosts, despite the technological difficulties to draw such fibers. Composite structures of thermally bonded crystals offer
H. Schonnagel, U. Griebner
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(CLEO). Conference on Lasers and Electro-Optics, 2005., 2005
Fiber lasers performance continues to increase due to advances in fiber design, with developments such as large mode area fibers, all-glass pump combiners, microstructured fiber and air-clad fiber allowing higher peak and average power.
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Fiber lasers performance continues to increase due to advances in fiber design, with developments such as large mode area fibers, all-glass pump combiners, microstructured fiber and air-clad fiber allowing higher peak and average power.
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Monolithic fiber laser oscillator with record high power
Laser Physics Letters, 2018With an increasing output power, the power scaling of monolithic fiber laser oscillators faces the severe limitations of stimulated Raman scattering (SRS) and the transverse mode instability (TMI) effect.
Baolai Yang +13 more
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Fiber and Integrated Optics, 1979
Optical fibers can exhibit wavelength conversion and other nonlinear optical effects at powers less than one watt. The reason has little to do with the glass in the fiber core, which is one of the least nonlinear of all materials, but rather with the tremendous interaction length possible in low-loss fibers.
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Optical fibers can exhibit wavelength conversion and other nonlinear optical effects at powers less than one watt. The reason has little to do with the glass in the fiber core, which is one of the least nonlinear of all materials, but rather with the tremendous interaction length possible in low-loss fibers.
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Amplification in a Fiber Laser
Applied Optics, 1964Fiber lasers of neodymium-doped glass have been used on a pulsed basis to amplify 1.06-μ radiation. To prevent oscillation, the ends are polished at an angle such that reflected light is lost from the cavity. With the high inversion which can then be obtained, gains as large as 5 × 104 have been observed in a 1-m long fiber.
Elias Snitzer, Charles J. Koester
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5.6 W monolithic fiber laser at 3.55 μm.
Optics Letters, 2017We report, to the best of our knowledge, the first monolithic erbium-doped fluorozirconate fiber laser bounded by two fiber Bragg gratings (FBGs) operating at 3.55 μm.
F. Maes +3 more
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Successive soliton explosions in an ultrafast fiber laser.
Optics Letters, 2016Soliton explosions, as one of the most fascinating nonlinear phenomena in dissipative systems, have been investigated in different branches of physics, including the ultrafast laser community.
Meng Liu +7 more
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1995
Publisher Summary This chapter highlights the characteristics of continuous-wave (CW) fiber lasers and discusses active and passive mode-locking techniques used to generate short optical pulses from fiber lasers. The effects of fiber dispersion and nonlinearities on the mode-locking process are discussed using the Ginzburg- Landau equation that ...
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Publisher Summary This chapter highlights the characteristics of continuous-wave (CW) fiber lasers and discusses active and passive mode-locking techniques used to generate short optical pulses from fiber lasers. The effects of fiber dispersion and nonlinearities on the mode-locking process are discussed using the Ginzburg- Landau equation that ...
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2013
: Fiber lasers are arguably the most disruptive laser technology to emerge in the last decade, spanning kilowatt-class CW lasers, pulsed lasers from nanoseconds down to ultrafast, and wavelengths from 1 μm to 2 μm. This chapter covers the basic laser physics of these systems and the waveguide designs to optimize device performance along with the ...
B. Samson Nufern, L. Dong
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: Fiber lasers are arguably the most disruptive laser technology to emerge in the last decade, spanning kilowatt-class CW lasers, pulsed lasers from nanoseconds down to ultrafast, and wavelengths from 1 μm to 2 μm. This chapter covers the basic laser physics of these systems and the waveguide designs to optimize device performance along with the ...
B. Samson Nufern, L. Dong
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High-power fiber-coupled pump lasers for fiber lasers
High-Power Diode Laser Technology XVI, 2018We present high-power fiber-coupled pump modules utilized effectively for ultra-high power single-mode (SM) fiber lasers. Maximum output power of 392 W was achieved at 23 A for 915 nm pump, and 394 W for 976 nm pump. Fiber core diameter is 118 μm and case temperature is 25deg. C.
Daiichiro Tanaka +2 more
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