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Ultrafast waveguide lasers [PDF]
Mode-locked lasers with repetition-rates in excess of 1 GHz have many applications in areas such as optical sampling, non-linear microscopy, and optical frequency metrology. To date there have been very few demonstrations of such high repetition-rate lasers with sub-picosecond operation and high average power.
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Nature Photonics, 2013
Ultrafast fibre lasers are an important optical system with industrial, medical and purely scientific applications. Essential components and the operation regimes of ultrafast fibre laser systems are reviewed, as are their use in various applications.
Fermann, Martin E., Hartl, Ingmar
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Ultrafast fibre lasers are an important optical system with industrial, medical and purely scientific applications. Essential components and the operation regimes of ultrafast fibre laser systems are reviewed, as are their use in various applications.
Fermann, Martin E., Hartl, Ingmar
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2013
Overview of Ultrafast Laser Processing Koji Sugioka and Ya Cheng Lasers for Ultrafast Laser-Materials Processing M. Ramme, A. Vaupel, M. Hemmer, J. Choi, I. Mingareev, and M. Richardson Fundamentals of Ultrafast Laser Processing Nadezhda M. Bulgakova Spatial and Temporal Manipulation of Ultrafast Laser Pulses for Micro- and Nanoprocessing Yoshio ...
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Overview of Ultrafast Laser Processing Koji Sugioka and Ya Cheng Lasers for Ultrafast Laser-Materials Processing M. Ramme, A. Vaupel, M. Hemmer, J. Choi, I. Mingareev, and M. Richardson Fundamentals of Ultrafast Laser Processing Nadezhda M. Bulgakova Spatial and Temporal Manipulation of Ultrafast Laser Pulses for Micro- and Nanoprocessing Yoshio ...
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The Journal of the Acoustical Society of America, 1996
Acoustic waves generated by ultrashort optical pulses provide a novel approach to materials characterization. Frequencies in the gigahertz to terahertz regime, corresponding to acoustic wavelengths from sub-10 nm to ∼1 μm, can be used to investigate thin layers and nanostructures of commensurate dimensions.
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Acoustic waves generated by ultrashort optical pulses provide a novel approach to materials characterization. Frequencies in the gigahertz to terahertz regime, corresponding to acoustic wavelengths from sub-10 nm to ∼1 μm, can be used to investigate thin layers and nanostructures of commensurate dimensions.
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1998
Erbium-doped fibers are making it possible to develop compact, diode-pumped sources of ultrashort pulses for a variety of applications. Operating principles of these devices are reviewed and recent experimental progress in our laboratory on soliton and stretched-pulse lasers is described.
Erich P. Ippen +3 more
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Erbium-doped fibers are making it possible to develop compact, diode-pumped sources of ultrashort pulses for a variety of applications. Operating principles of these devices are reviewed and recent experimental progress in our laboratory on soliton and stretched-pulse lasers is described.
Erich P. Ippen +3 more
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Recent developments in compact ultrafast lasers
Nature, 2003Ultrafast lasers, which generate optical pulses in the picosecond and femtosecond range, have progressed over the past decade from complicated and specialized laboratory systems to compact, reliable instruments. Semiconductor lasers for optical pumping and fast optical saturable absorbers, based on either semiconductor devices or the optical nonlinear ...
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Ultrafast laser manufacturing: from physics to industrial applications
CIRP Annals - Manufacturing Technology, 2021Leonardo Orazi, L Romoli
exaly
Single-Shot Real-Time Ultrafast Imaging of Femtosecond Laser Fabrication
ACS Photonics, 2021Yunhua Yao, Dalong Qi, Fengyan Cao
exaly
Fabrication of super hydrophilic surface on alumina ceramic by ultrafast laser microprocessing
Applied Surface Science, 2021Wenting He, Yingchun Guan
exaly

