首页> 外文会议>2010 International Conference on Indium Phosphide and Related Materials >Intersubband absorption generation through silicon ion implantation in undoped InGaAs/AlAsSb coupled double quantum wells towards monolithic integration of intersubband-transition-based all-optical switches

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Intersubband absorption generation through silicon ion implantation in undoped InGaAs/AlAsSb coupled double quantum wells towards monolithic integration of intersubband-transition-based all-optical switches

机译：通过在未掺杂的InGaAs / AlAsSb耦合的双量子阱中进行硅离子注入，实现子带间吸收，从而实现基于子带间跃迁的全光开关的单片集成

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We demonstrated the intersubband absorption through silicon ion implantation and subsequent rapid thermal annealing in undoped InGaAs/AlAsSb coupled double quantum wells. The effective temperature region of carrier activation for the implanted silicon ions is about 470~600 °C. For the sample with a silicon implantation dose of 1e14 cm−2, we obtained an actual carrier density of ~ 7.5e13 cm−2 (~75% activation efficiency) when it was annealed at 600 °C for 1 min. Simultaneously, a ~160-nm blueshift in interband absorption edge was observed, indicating quantum well intermixing (QWI). QWI and its non-uniformity were confirmed using SIMS and TEM measurements. This technique to generate intersubband absorption opens a route to fabricate monolithically integrated all-optical switches based on intersubband-transition induced cross-phase modulation.

机译：我们展示了在未掺杂的InGaAs / AlAsSb耦合双量子阱中通过硅离子注入和随后的快速热退火实现的子带间吸收。注入的硅离子载流子活化的有效温度范围约为470〜600°C。对于硅注入剂量为1e14 cm ^{-2 的样品，当硅注入剂量为1e14 cm ^{-2 时，我们获得的实际载流子密度为7.5e13 cm ^{-2 （激活效率为〜75％）。在600℃下退火1分钟。同时，观察到约160nm的带间吸收边缘蓝移，表明量子阱混合（QWI）。使用SIMS和TEM测量确认了QWI及其不均匀性。产生子带间吸收的这项技术为基于子带间过渡引起的交叉相位调制制造单片集成全光开关开辟了一条途径。}}}

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《2010 International Conference on Indium Phosphide and Related Materials》|2010年|P.1-4|共4页
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Cong G. W.; Akimoto R.; Gozu S.; Mozume T.; Hasama T.; Ishikawa H.;
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1. Simultaneous generation of intersubband absorption and quantum well intermixing through silicon ion implantation in undoped InGaAs/AlAsSb coupled double quantum wells [J] . Applied Physics Letters . 2010,第10期

机译：通过在未掺杂的InGaAs / AlAsSb耦合双量子阱中注入硅离子，同时产生子带间吸收和量子阱混合。
2. Simultaneous generation of intersubband absorption and quantum well intermixing through silicon ion implantation in undoped InGaAs/AlAsSb coupled double quantum wells [J] . G. W. Cong R. Akimoto S. Gozu T. Mozume T. Hasama and H. Ishikawa Applied Physics Letters . 2010,第10期

机译：通过在未掺杂的InGaAs / AlAsSb耦合双量子阱中注入硅离子，同时产生子带间吸收和量子阱混合。
3. Simultaneous generation of intersubband absorption and quantum well intermixing through silicon ion implantation in undoped InGaAs/AIAsSb coupled double quantum wells [J] . G. W. Cong, R. Akimoto, S. Gozu, Applied Physicsletters . 2010,第10期

机译：在未掺杂的InGaAs / AIAsSb耦合双量子阱中通过硅离子注入同时产生子带间吸收和量子阱混合。
4. INTERSUBBAND ABSORPTION GENERATION THROUGH SILICON ION IMPLANTATION IN UNDOPED INGAAS/ALASSB COUPLED DOUBLE QUANTUM WELLS TOWARDS MONOLITHIC INTEGRATION OF INTERSUBBAND-TRANSITION-BASED ALL-OPTICAL SWITCHES [C] . G. W. Cong, R. Akimoto, S. Gozu, International Conference on Indium Phosphide and Related Materials . 2010

机译：通过硅离子植入的间隙吸收产生，未掺杂的InGaAs / Alassb耦合双量子孔朝向基于IntersubBand-Transition的全光开关的单片集成
5. Monolithic Integration of InAs Quantum Dot Lasers on Silicon Substrates [D] . Wan, Yating. 2017

机译：INAS量子点激光在硅基板上的单片集成
6. InAs/GaAs Quantum Dot Microlasers Formed on Silicon Using Monolithic and Hybrid Integration Methods [O] . Alexey E. Zhukov, Natalia V. Kryzhanovskaya, Eduard I. Moiseev, 2020

机译：使用整体和混合集成方法在硅上形成InAs / GaAs量子点微激光器
7. Femtosecond pump-probe spectroscopy of intersubband relaxation dynamics in narrow InGaAs/AlAsSb quantum well structures [O] . Tribuzy, C.V.-B., Ohser, S., Winnerl, S., 2006

机译：窄InGaas / alassb量子阱结构中子带弛豫动力学的飞秒泵浦探针光谱

Intersubband absorption generation through silicon ion implantation in undoped InGaAs/AlAsSb coupled double quantum wells towards monolithic integration of intersubband-transition-based all-optical switches

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