Results 201 to 210 of about 13,459 (258)
Orthogonally polarized dual-wavelength Nd:LaMgAl11O19/Nd:SrAl12O19 laser at 1297 and 1306 nm with adjustable ratio of output powers. [PDF]
Chu C, Yang X, Li Y.
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Electrical Threshold Gain Engineering for High-Speed Direct Modulation in Two-Dimensional Semiconductor Laser. [PDF]
Chen ZZ, Chang CY, Lin HT, Shih MH.
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Reconfigurable chalcogenide integrated nonlinear photonics. [PDF]
Xia D +8 more
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Compact, reconfigurable, and scalable photonic neurons by modulation-and-weighting microring resonators. [PDF]
Zhang W +4 more
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Gradient moiré perovskite superlattices for laser beam steering. [PDF]
Mou N +12 more
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A monolithic microcavity laser with simultaneous upconversion and frequency-doubled lasing via crystal-in-glass engineering. [PDF]
Ye S +8 more
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Three ways have already been found of tuning lasers to emit light of particular wavelengths chosen from a wide range.
Hanna, D.C., Smith, R.C.
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Optics Letters, 2016
We report the demonstration of a tunable dysprosium laser. The experiment employed in-band pumping of a Dy3+-doped fluoride fiber and a simple resonator design involving a ruled diffraction grating. The laser produced tuning between 2.95 and 3.35 μm, limited by the availability of optics.
Matthew R, Majewski, Stuart D, Jackson
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We report the demonstration of a tunable dysprosium laser. The experiment employed in-band pumping of a Dy3+-doped fluoride fiber and a simple resonator design involving a ruled diffraction grating. The laser produced tuning between 2.95 and 3.35 μm, limited by the availability of optics.
Matthew R, Majewski, Stuart D, Jackson
openaire +2 more sources
Tunable Lasers in Ophthalmology
Ophthalmologica, 2010The present status of laser application in clinical ophthalmology is breifly reviewed. The potentials of tunable dye lasers as retinal photocoagulators are discussed. Selective irradiation of ocular tissues over the full visible spectrum and the simplicity and reliability of recently developed waveguide lasers are the most attractive features of these ...
R, Brancato +3 more
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Journal of Physics D: Applied Physics, 1979
The tuning of an atomic iodine photodissociation laser over 11 wavenumbers is reported. The Zeeman effect is used to tune the laser, which is operated in a longitudinal magnetic field of up to 75 kG.
Fill, E., Thieme, W., Volk, R.
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The tuning of an atomic iodine photodissociation laser over 11 wavenumbers is reported. The Zeeman effect is used to tune the laser, which is operated in a longitudinal magnetic field of up to 75 kG.
Fill, E., Thieme, W., Volk, R.
openaire +2 more sources

