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Applications of femtosecond pulse engineering in the control of excitons in quantum dots

机译：飞秒脉冲工程在量子点激子控制中的应用

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Pulse shaping techniques are used to demonstrate quantum control of exciton qubits in InAs quantum dots. Linearly chirped laser pulses are used to demonstrate adiabatic rapid passage in a single quantum dot on a subpicosecond timescale. The observed dependence of the exciton inversion efficiency on the sign of the pulse chirp identifies phonons as the dominant source of dephasing, which can be suppressed for positive chirp at low temperatures. The use of optimal quantum control theory to engineer a single optical pulse to implement simultaneous π and 2π single qubit gates in two uncoupled quantum dots is demonstrated. This work will support the use of pulse shaping in solid-state quantum hardware.

机译：脉冲整形技术用于证明InAs量子点中激子量子位的量子控制。线性chi激光脉冲用于在亚皮秒级的时间尺度上显示单个量子点中的绝热快速通过。观察到的激子反演效率对脉冲rp的符号的依赖性将声子识别为移相的主要来源，对于低温下的正chi，可以将其抑制。演示了使用最佳量子控制理论设计单个光脉冲，以在两个未耦合的量子点中同时实现π和2π单个qubit门。这项工作将支持在固态量子硬件中使用脉冲整形。

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《Spintronics symposium》|2014年|916705.1-916705.7|共7页
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Reuble Mathew; Angela Gamouras; Eric Dilcher; Ajan P. Ramachandran; Hong Yi Shi Yang; Sabine Freisem; Dennis G. Deppe; Kimberley C. Hall;
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quantum dot; adiabatic rapid passage; pulse shaping; chirp; coherent control; exciton; quantum control; ultrafast;

机译：量子点绝热快速通道脉冲整形rp相干控制激子量子控制超快;

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专利

1. Optically engineered ultrafast pulses for controlled rotations of exciton qubits in semiconductor quantum dots [J] . Angela Gamouras, Reuble Mathew, Kimberley C. Hall Journal of Applied Physics . 2012,第1期

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2. Controlled Precipitation of Lead Sulfide Quantum Dots in Glasses Using the Femtosecond Laser Pulses [J] . Chao Liu, Yong Kon Kwon, Jong Heo, Journal of the American Ceramic Society . 2010,第5期

机译：飞秒激光脉冲控制玻璃中硫化铅量子点的沉淀
3. Semiconductor quantum dots and quantum dot arrays and applications of multiple exciton generation to third-generation photovoltaic solar cells [J] . Nozik A.J., Beard M.C., Luther J.M., Chemical Reviews . 2010,第11期

机译：半导体量子点和量子点阵列以及多激子产生在第三代光伏太阳能电池中的应用
4. Robust quantum dot exciton preparation via adiabatic passage with frequency-swept Laser pulses [C] . B. Urbaszek, C.-M. Simon, T. Belhadj, Ultrafast phenomena in semiconductors and nanostructure materials XV . 2011

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5. Carrier dynamics in IndiumGalliumArsenic/GalliumArsenic quantum dots excited by femtosecond laser pulses. [D] . Chauhan, Kripa Nidhan. 2013

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6. Tunable Broadband Nonlinear Optical Properties of Black Phosphorus Quantum Dots for Femtosecond Laser Pulses [O] . Xiao-Fang Jiang, Zhikai Zeng, Shuang Li, 2017

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7. Dynamics and control of open quantum systems : applications to exciton dynamics in quantum dots and vibrational dynamics in carboxyhemoglobin [O] . Debnath Arunangshu 2013

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Applications of femtosecond pulse engineering in the control of excitons in quantum dots

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