A planar lightwave circuit (PLC) has been envisioned to provide a new generation of optical networks capable of delivering signal at high speed and bandwidth to the household. High index contrast (HIC) and optical gain in the same material system would substantially enhance integration of different optical devices in a small area and compensate for the losses in the system to realise low cost, dense multi-functional PLCs. This thesis investigates the use of tantala as a HIC material system for realising gain efficient Erbium doped waveguide amplifiers (EDWAs) and lasers to be used at 1.5µm wavelength, towards realising dense multi-functional PLCs.Slab waveguides were fabricated by magnetron sputter deposition under optimised conditions of a powder pressed, Er:Ta2O5 target onto an oxidized silicon substrate. Optimised sputtering process yielded a Er:Ta2O5 thin film with a refractive index of 2.105 @ 1550 nm and a maximum erbium lifetime of 2.3 ms. Single mode rib waveguides were designed and the fabricated using photolithography and argon ion beam milling. A maximum propagation loss of 0.65 ± 0.05 dB/cm at 1600 nm was measured, the peak erbium absorption and emission cross-section was determined to be 4.8 ± 0.2 x 10^-21 cm2 and 4.4 ± 0.2 x 10^-21 cm2 respectively.Numerical modeling of Er:Ta2O5 based EDWA predicted a maximum gain of 4 dB/cm at 200 mW pump power, in a 5.4cm long waveguide with an erbium concentration of 5.4 x 10^20 ions/cm3. Gain measurements were performed on a 2.3cm long rib waveguide with a erbium concentration of 2.7 x 10^20 ions/cm3, at a pump power of 200mW, and a net optical gain of 2.25dB/cm peaking at 1531.5 nm was measured in a 2µm wide waveguide. The pump threshold with respect to the launched pump power was measured to be as low as 4.5mW. The cavity was formed by affixing two mirrors at the end facets of the waveguides. Lasing was observed in a single longitudinal and transverse mode peaking between 1556 and 1560nm. The lasing threshold of 14mW with a slope efficiency of 0.3% was measured with respect to the launched power.Finally, a feasibility study for inscribing sub-micron grating structures on the Er:Ta2O5 waveguides were carried out using interferometric ablation. Gratings inscribed with 23 mJ/cm2 energy density and 1000 pulses yielded a maximum reflectivity of 11dB for TE polarisation at 1505nm. This feasibility study shows potential to realise integratedcavity line narrowed lasers and filters. Tantala has long been used for different photonic applications but gain at 1.5?m is demonstrated for the first time. The results presented in the thesis demonstrate that tantala due to its HIC, net optical gain and other inherent properties that it possesses have the potential to realise low cost, compact PLCs for the short haul networks.
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机译:已经设想了平面光波电路(PLC),以提供新一代的光网络,该网络能够以高速和高带宽向家庭传输信号。同一材料系统中的高折射率对比度(HIC)和光学增益将大大增强不同光学器件在小面积上的集成,并补偿系统中的损耗,从而实现低成本,密集型多功能PLC。本文研究了使用tantala作为HIC材料系统来实现增益有效的掺do波导放大器(EDWA)和波长为1.5μm的激光器,以实现致密的多功能PLC的方法。平板波导是在磁控溅射沉积条件下制造的最优化的条件是将Er:Ta2O5压粉到氧化硅衬底上。通过优化溅射工艺,可以得到Er:Ta2O5薄膜,其折射率为2.105 @ 1550 nm,最大maximum寿命为2.3 ms。使用光刻和氩离子束铣削设计并制造了单模肋状波导。在1600 nm处测得最大传播损耗为0.65±0.05 dB / cm ,,吸收和发射峰的横截面分别确定为4.8±0.2 x 10 ^ -21 cm2和4.4±0.2 x 10 ^ -21 cm2基于Er:Ta2O5的EDWA的数值模型预测,在200浓度为5.4 x 10 ^ 20离子/ cm3的5.4cm长波导中,在200 mW泵浦功率下最大增益为4 dB / cm。在a浓度为2.7 x 10 ^ 20离子/ cm3的2.3cm长的肋形波导上以200mW的泵浦功率进行增益测量,并在1531.5 nm处测得的峰值为1531.5 nm的净光学增益为2.25dB / cm。 2μm宽的波导。相对于发射泵浦功率的泵浦阈值经测量可低至4.5mW。通过在波导的端面上固定两个反射镜来形成空腔。在单个纵向和横向模式中观察到激光发射,峰值在1556和1560nm之间。相对于发射功率,测量了14mW的激光阈值,斜率效率为0.3%。最后,使用干涉消融技术在Er:Ta2O5波导上刻入亚微米光栅结构的可行性研究。光栅刻有23 mJ / cm2的能量密度和1000个脉冲,对于1505nm处的TE偏振,最大反射率达到11dB。这项可行性研究显示出实现集成腔线变窄激光器和滤光片的潜力。坦塔拉(Tantala)长期以来一直用于不同的光子应用,但首次展示了1.5?m的增益。论文中的结果表明,由于塔塔拉具有HIC,净光学增益和其他固有特性,它有可能为短距离网络实现低成本,紧凑型PLC。
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