Development of a TM:HO:YLF-laser-pumped Orientation-patterned Gallium Arsenide Optical Parametric Oscillator - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Development of a TM:HO:YLF-laser-pumped Orientation-patterned Gallium Arsenide Optical Parametric Oscillator write by Michael D. Harm. This book was released on 2002. Development of a TM:HO:YLF-laser-pumped Orientation-patterned Gallium Arsenide Optical Parametric Oscillator available in PDF, EPUB and Kindle.
Development of a TM:HO
Development of a TM:HO - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Development of a TM:HO write by Michael D. Harm. This book was released on 2002-03-01. Development of a TM:HO available in PDF, EPUB and Kindle. Coherent optical sources in the mid-infrared region (mid-IR) are important fundamental tools for infrared countermeasures and battlefield remote sensing. Nonlinear optical effects can be applied to convert existing near-IR laser sources to radiate in the mid-IR. This research focused on achieving such a conversion with a quasi-phase matched optical parametric oscillators using orientation-patterned gallium arsenide (OPGaAs), a material that can be quasi- phased matched by periodically reversing the crystal structure during the epitaxial growth process. Although non-linear optical conversion was not ultimately achieved during this research, many valuable lessons were learned from working with this material. This thesis reviews the theory of nonlinear optics and explores the importance of accurate refractive index measurements to proper structure design. The details of four nonlinear optical experiments are presented recommendations are offered for the design of future OPGaAs crystals. Recommendations are also made for improved experimental techniques.
Development of a TM:HO:YLF-Laser-Pumped Orientation-Patterned Galium Arsenide Optical Parametric Oscillator
Development of a TM:HO:YLF-Laser-Pumped Orientation-Patterned Galium Arsenide Optical Parametric Oscillator - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Development of a TM:HO:YLF-Laser-Pumped Orientation-Patterned Galium Arsenide Optical Parametric Oscillator write by . This book was released on 2002. Development of a TM:HO:YLF-Laser-Pumped Orientation-Patterned Galium Arsenide Optical Parametric Oscillator available in PDF, EPUB and Kindle. Coherent optical sources in the mid-infrared region (mid-IR) are important fundamental tools for infrared countermeasures and battlefield remote sensing. Nonlinear optical effects can be applied to convert existing near-IR laser sources to radiate in the mid-IR. This research focused on achieving such a conversion with a quasi-phase matched optical parametric oscillators using orientation-patterned gallium arsenide (OPGaAs), a material that can be quasi-phased matched by periodically reversing the crystal structure during the epitaxial growth process. Although non-linear optical conversion was not ultimately achieved during this research, many valuable lessons were learned from working with this material. This thesis reviews the theory of nonlinear optics and explores the importance of accurate refractive index measurements to proper structure design. The details of four nonlinear optical experiments are presented recommendations are offered for the design of future OPGaAs crystals. Recommendations are also made for improved experimental techniques.
Optical Parametric Oscillation in Orientation-patterned Gallium Arsenide
Optical Parametric Oscillation in Orientation-patterned Gallium Arsenide - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Optical Parametric Oscillation in Orientation-patterned Gallium Arsenide write by Scott A. Shell. This book was released on 2007. Optical Parametric Oscillation in Orientation-patterned Gallium Arsenide available in PDF, EPUB and Kindle.
Cascaded Orientation-patterned Gallium Arsenide Optical Parametric Oscillator for Improved Longwave Infrared Conversion Efficiency
Cascaded Orientation-patterned Gallium Arsenide Optical Parametric Oscillator for Improved Longwave Infrared Conversion Efficiency - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Cascaded Orientation-patterned Gallium Arsenide Optical Parametric Oscillator for Improved Longwave Infrared Conversion Efficiency write by Ryan K. Feaver. This book was released on 2017. Cascaded Orientation-patterned Gallium Arsenide Optical Parametric Oscillator for Improved Longwave Infrared Conversion Efficiency available in PDF, EPUB and Kindle. Optical parametric oscillators (OPOs) utilizing quasi-phase matched materials offer an appealing alternative to direct laser sources. Quasi-phase matched materials provide a useful alternative to traditional birefringent nonlinear optical materials and through material engineering, higher nonlinear coefficients can now be accessed. Orientation patterned gallium arsenide (OPGaAs) is an ideal material because of its broad IR transmission and large nonlinear coefficient. In contrast to ferroelectric materials, such as lithium niobate, where the pattern is fabricated through electric poling, zincblende materials, like OPGaAs, are grown epitaxially with the designed pattern. Generating longwave output from a much shorter pump wavelength, however, is relatively inefficiency due to the large quantum defect when compared to similar devices operating in the 3-5 μm regime. One method to increase pump to idler conversion efficiency is to recycle the undesired and higher energy signal photons into additional idler photons via a second nonlinear stage. An external amplifier stage can be utilized, where the signal and idler from the OPO are sent to a second nonlinear crystal in which the idler is amplified at the expense of the signal. Alternatively, the second crystal can be placed within the original OPO cavity where the signal from the first-stage acts as the pump for the second crystal and the resonant intensity of the signal is higher. Pumping the second crystal within the OPO should lead to higher conversion efficiency into the longwave idler. The grating period needed for the second crystal to use the signal from the first crystal to produce additional idler has the fortuitous advantage that it will not phase match to the original pump wavelength, avoiding unwanted nonlinear interactions. Therefore, a simple linear cavity can be utilized where the pump from the first-stage will simply propagate through the second crystal without undesired results. Without this feature, the pump would need to be coupled out of the cavity before it enters the second crystal. Initial numerical simulations using a custom model, implemented in MATLAB® for the proposed linear, two-stage, cascaded, OPGaAs nanosecond OPO suggest a significant improvement in conversion efficiency over a single-stage device can be obtained. The numerical model includes diffraction, crystal loss, phase mismatch, pump depletion, and back conversion, it assumes monochromatic waves and neglects group velocity dispersion. For a singly resonant oscillator (SRO) pumped by a 2.052 μm Tm:Ho,YLF laser with 45 ns pulse width, the addition of the second crystal in the cavity increases idler generation by a factor of two and exceeds the quantum defect limit. Experimentally, the cascaded OPGaAs OPO demonstrated a ~3% slope efficiency. Limited output may be the result of improper phase matching, given that two distinct idlers wavelengths were observed. Tuning the OPGaAs crystals to generate identical idlers should improve efficiency. The linewidth of the signal serving to pump the second-stage likely reduced efficiency as well. To our knowledge, this is the first cascaded OPO using OPGaAs, and the first cascaded OPO operating in the longwave infrared where the same longwave idler was generated in the both crystals.
