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Epitaxially-grown Gallium Nitride on Gallium Oxide substrate for photon pair generation in visible and telecomm wavelengths

机译：在氧化镓衬底上外延生长的氮化镓，用于在可见和电信波长下生成光子对

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Gallium Nitride (GaN), along with other III-Nitrides, is attractive for optoelectronic and electronic applications due to its wide direct energy bandgap, as well as high thermal stability. GaN is transparent over a wide wavelength range from infra-red to the visible band, which makes it suitable for lasers and LEDs. It is also expected to be a suitable candidate for integrated nonlinear photonic circuits for a wide range of applications from all-optical signal processing to quantum computing and on-chip wavelength conversion. Despite its abundant use in commercial devices, there is still need for suitable substrate materials to reduce high densities of threading dislocations (TDs) and other structural defects like stacking faults, and grain boundaries. All these defects degrade the optical quality of the epi-grown GaN layer as they act as non-radiative recombination centers.

机译：氮化镓（GaN）以及其他III氮化物由于其宽的直接能带隙以及高的热稳定性而吸引了光电和电子应用。 GaN在从红外线到可见光波段的宽波长范围内都是透明的，这使其适用于激光器和LED。从全光信号处理到量子计算和芯片上波长转换的广泛应用，也有望成为集成非线性光子电路的合适候选者。尽管其在商业设备中得到了广泛使用，但仍需要合适的基底材料来减少高密度的螺纹位错（TDs）和其他结构缺陷，例如堆垛层错和晶界。所有这些缺陷均会降低外延生长的GaN层的光学质量，因为它们充当了非辐射复合中心。

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Awan Kashif M.; Dolgaleva Ksenia; Mumthaz Muhammed Mufasila; Roqan Iman S.;
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1. Enhanced production rates of hydrogen generation and carbon dioxide reduction using aluminum gallium nitride/gallium nitride heteroepitaxial films as photoelectrodes in seawater [J] . Lee Ming-Lun, Liao Po-Hsun, Li Guan-Lun, Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2019,第期

机译：使用铝氮化铝/氮化镓杂膜膜作为海水的光电子，增强了氢气产生和二氧化碳减少的生产速率
2. Synthesis of gallium nitride nano-particles by ammonia nitridation of mixed β-gallium oxide and gallium nitride powders [J] . Hajime KIYONO, Yasuyuki MATSUO, Takuto MISE, Journal of the Ceramic Society of Japan . 2020,第10期

机译：混合β-镓氧化镓氮化镓氮化镓纳米颗粒的合成及氮化镓粉末
3. Epitaxial gallium nitride thin films grown on silicon substrates utilizing gallium nitride seed-layer formed by liquid source precursor [J] . Ky Nam Hoang, Hong Tak Kim, Woosuk Jun, The Korean journal of chemical engineering . 2012,第1期

机译：利用由液体源前驱物形成的氮化镓种子层在硅衬底上生长的外延氮化镓薄膜
4. Epitaxially-grown Gallium Nitride on Gallium Oxide substrate for photon pair generation in visible and telecomm wavelengths [C] . Kashif M. Awan, Ksenia Dolgaleva, Mufasila M. Muhammed, Photonics North . 2016

机译：在氧化镓衬底上外延生长的氮化镓，用于在可见和电信波长下产生光子对
5. Aluminium Gallium Nitride/Gallium Nitride Dual Channel HFETs and Realization of Gallium Nitride Devices on different substrates [D] . Wu, Mo. 2012

机译：氮化铝镓/氮化镓双通道HFET及其在不同基板上的氮化镓器件的实现
6. Synthesis of gallium nitride nanostructures by nitridation of electrochemically deposited gallium oxide on silicon substrate [O] . Norizzawati Mohd Ghazali, Kanji Yasui, Abdul Manaf Hashim 2014

机译：通过氮化硅衬底上电化学沉积的氧化镓的氮化合成氮化镓纳米结构
7. Gallium nitride on gallium oxide substrate for integrated nonlinear optics [O] . Awan Kashif M., Dolgaleva Ksenia, Mumthaz Muhammed Mufasila, 2017

机译：用于集成非线性光学器件的氧化镓衬底上的氮化镓
8. Methods of Fabricating Gallium Nitride Semiconductor Layers on Substrates Including Non-Gallium Nitride Posts, and Gallium Nitride Semiconductor Structures Fabricated Thereby. [R] . Linthicum, K. J., Gehrke, T., Davis, R. F. 2005

机译：在包括非氮化镓柱的基板上制造氮化镓半导体层的方法，以及由此制造的氮化镓半导体结构。

Epitaxially-grown Gallium Nitride on Gallium Oxide substrate for photon pair generation in visible and telecomm wavelengths

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