86,737 research outputs found

    Professional Ethics in animal assisted therapy and education – Developement of a survey instrument to identify ethical attitudes and reference points of professionals in animal assisted therapy and education

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    In diesem Beitrag wird ein Erhebungsinstrument zur Erfassung ethischer Einstellungen und Bezugspunkte von tiergestützt arbeitenden Fachkräften ausgearbeitet. Die Fragen werden auf Basis der berufsethischen Standards, Richtlinien und Kodizes aus den für tiergestützte Fachkräfte relevanten Bezugswissenschaften sowie auf Grundlage der ethischen Grundlagen des Integrativen Verfahrens entwickelt.In this paper, a survey instrument is developed to identify ethical attitudes and reference points of professionals in animal assisted therapy and education. The developement of questions is based on professional ethical standards, guidelines and codes from the related disciplines for professionals in this field and the ethical principles of the Integrative Therapy.https://www.fpi-publikation.de/gruene-texte/03-2022-rotermund-f-ethische-bezugspunkte-in-der-beruflichen-praxis-tiergestuetzter-therapie-und-paedagogik-entwicklung-eines-erhebungsinstruments/peerReviewedpublishedVersio

    Generation of high-power femtosecond light pulses at 1 kHz in the mid-infrared spectral range between 3 and 12 mu m by second-order nonlinear processes in optical crystals

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    We review methods for frequency conversion of amplified femtosecond laser pulses from the near- to the mid-infrared. The potential of all commercially available optical crystals is evaluated on the basis of the specific requirements in the high-power femtosecond regime. A comparative experimental study of a number of materials (birefringent and quasi-phase-matched) employed in a seeded optical parametric amplifier pumped near 800 nm is presented, where the generated idler is tunable between 3 and 4 mum. Internal conversion efficiencies as high as 40% and pulse energies as high as 20 muJ are achieved in this spectral range. Wavelength tunability up to 12 mum with energies exceeding 1 muJ is demonstrated by pumping optical parametric amplifiers and generators near 1.25 and 2 mum, as well as by difference frequency generation with a quantum efficiency of 40-80%. In all cases the generated mid-infrared pulses are almost bandwidth limited with a duration of 100-200 f

    Difference-frequency generation of intense femtosecond pulses in the mid-IR (4–12 μm) using HgGa2S4 and AgGaS2

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    We compare the properties and the performance of HgGa2S4 and AgGaS2 in a high-power difference-frequency generation scheme mixing the signal and idler from a travelling wave optical parametric generator at 1 kHz. Femtosecond pulses from 3.7 to 12 mum with quantum efficiency of 40-80% are generated with HgGa2S4 which is about 1.2 times higher than with AgGaS2 typically used in that wavelength range. The maximum single pulse energy obtained exceeds 9 muJ near 4 mum and 1 muJ in the whole tunability range which represents about an order of magnitude improvement in comparison with previous results. The mid-infrared pulses are almost bandwidth limited with durations of the order of 200 fs and less (minimum 165 fs). (C) 2000 Elsevier Science B.V. All rights reserve

    Generation of femtosecond pulses down to 166nm by sum-frequency mixing in KB(5)O(8.)4H(2)O

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    An all solid-state laser system based on sum-frequency mixing the signal wave from an optical parametric generator and the fourth harmonic of a Ti:sapphire regenerative amplifier produced similar or equal to 200fs long nearly bandwidth-limited pulses tunable from 172 down to 166n

    Laser-diode-seeded single and double stage femtosecond optical parametric amplification in the mid-infrared

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    Tunable mid-infrared pulses are generated with a MgO:LiNbO3-based traveling-wave optical parametric amplifier in single and double stage operation regime pumped by a 1-kHz Ti:sapphire regenerative amplifier system. For the first time to our knowledge a pulsed laser diode is successfully used in the femtosecond regime as a compact seed source at the signal wavelength where the tunability of the generated idler pulses can be realized by tuning the seed wavelength. Almost transform limited mid-infrared pulses as short as 130 and 160 fs with pulse energies as high as 5 and 15 mu J are produced near 3.5 mu m by the single and double stage scheme, respectively. The pulse to pulse fluctuations in both cases do not exceed 2% which corresponds to the stability of the pump sourc

    Characterization of ZnGeP2 for parametric generation with near-infrared femtosecond pumping

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    Values for the nonlinear refractive index (n(2) approximate to 5.4 X 10(.5) cm(2)/GW) are reported as well as the two-photon absorption coefficient (beta approximate to 0.25 cm/GW) in ZnGeP02 at wavelengths near half the band edge of this semiconductor nonlinear optical crystal. The Z-scan measurements were performed with a mode-locked femtosecond Cr:forsterite laser at 1.26 mum and 83 MHz, and the nonlinear transmission measurements were accomplished by a near infrared traveling wave optical parametric generator providing powerful femtosecond pulses at 1 kHz. In both cases, ZnGeP2 samples with reduced anomalous absorption were used. The parametric fluorescence in these 2-mm thin ZnGeP2 samples was studied with near infrared pumping and the optimum pump wavelength established lies between 1.9 and 2.1 mum. The femtosecond signal and idler pulses generated could be tuned between 2.5 and 12 mum at a maximum single pass internal conversion efficiency of 2.5

    Femtosecond noncollinear parametric amplification in the mid-infrared

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    We demonstrate the potential of noncollinear parametric interaction in a traveling wave MgO:LiNbO3 optical parametric amplifier operating in the mid infrared near 3 mu m. Our calculations indicate that for pump wavelengths below 816 nm (the wavelength near which collinear group matching is achieved at a fixed signal wavelength of 1064 nm), the group velocity mismatch can be reduced and the parametric gain can be increased by noncollinear propagation of the three beams. Experimentally we verify this by producing approximate to 2.5 times higher energy and shorter pulse duration (125 fs against 180 fs) at the idler wavelength by noncollinear interaction as compared to collinear interaction. (C) 1999 Elsevier Science B.V. All rights reserve

    Femtosecond regenerative amplification in Cr : forsterite at 5-10 kHz

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    We developed a high-power oscillator-regenerative amplifier femtosecond laser system. Based on chromium-doped forsterite. The system is operating near 1.25 mum at a 5-10 kHz repetition rate. Chirped-pulse amplification produced 0.86 W (0.75 W) of average power, or 465 mW (400 mW) after compression at 5 kHz (10 kHz). Nearly bandwidth-limited pulses of duration 135 fs (shortest) and 150 fs; (typical) are available with an energy of 93 muJ and 40 muJ at 5 and 10 kHz, respectivel
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