CAREER: Controlling Coherence and Correlations in Solid-state Quantum Systems
职业:控制固态量子系统中的相干性和相关性
基本信息
- 批准号:0847195
- 负责人:
- 金额:$ 55万
- 依托单位:
- 依托单位国家:美国
- 项目类别:Standard Grant
- 财政年份:2009
- 资助国家:美国
- 起止时间:2009-08-15 至 2014-07-31
- 项目状态:已结题
- 来源:
- 关键词:
项目摘要
This award is funded under the American Recovery and Reinvestment Act of 2009 (Public Law 111-5).****NON-TECHNICAL ABSTRACT****Advances in material fabrication and nanotechnology have pushed modern electronic and optical devices to regimes where quantum properties of matter become important. This Faculty Early Career Development (CAREER) Award supports a combined research and education program that will explore methods to control quantum systems as well as a property known as the quantum mechanical phase of the system in complex environments created from diamond-based materials and nanostructures. These materials have exceptional mechanical, electronic, optical and magnetic properties with the potential to significantly impact next generation technologies. The quantum mechanical phase also offers a new means to significantly augment our ability to process and store information. In this research program, we will explore such applications by manipulating magnetic properties (known as spin) of electrons and nuclei in these novel materials. Educational and outreach activities are seamlessly integrated into the research and aimed at improving the teaching of science at all levels. Graduate students associated with this CAREER project will be trained in advanced experimental techniques used in modern physics laboratories to study the quantum properties of these systems. Undergraduate physics majors at the University of Pittsburgh will participate in the research activities of the lab via the REU program. To motivate the next generation of scientists and incorporate modern principles of active learning, computer simulations and learning games explaining important physics topics and current research will be developed and made freely available to students and the general public.****TECHNICAL ABSTRACT****This CAREER Award funds a combined research and education program that will explore methods to control quantum coherence and entanglement of quantum systems in complex environments. The research program will study the fundamental properties of quantum entanglement using electron and nuclear spins in diamond-based materials and nanostructures. These materials have exceptional mechanical, electronic, optical and magnetic properties with the potential to significantly impact next generation technologies. Quantum entanglement also offers a new degree of freedom that can significantly augment our ability to process and store information. A central question is how are quantum entanglement and dynamics affected by the complex solid-state environment. Optical and magnetic resonance spectroscopy tools will be applied along with high spatial resolution techniques to generate, control and probe entanglement and study this question. Educational and outreach activities are seamlessly integrated into the research and aimed at improving the teaching of science at all levels. Graduate students associated with this CAREER project will be trained in advanced experimental techniques used in modern physics laboratories to study the quantum properties of these systems. Undergraduate physics majors at the University of Pittsburgh will participate in the research activities of the lab via the REU program. To motivate the next generation of scientists and incorporate modern principles of active learning, computer simulations and learning games explaining important physics topics and current research will be developed and made freely available to students and the general public.
该奖项是根据2009年美国复苏和再投资法案(公法111-5)资助的。非技术摘要 * 材料制造和纳米技术的进步已经将现代电子和光学器件推向了物质的量子特性变得重要的领域。 该学院早期职业发展(CAREER)奖支持一项综合研究和教育计划,该计划将探索控制量子系统的方法,以及在由金刚石材料和纳米结构创建的复杂环境中称为系统量子力学阶段的属性。这些材料具有卓越的机械、电子、光学和磁性,有可能对下一代技术产生重大影响。量子力学阶段还提供了一种新的手段,可以显著增强我们处理和存储信息的能力。在这项研究计划中,我们将通过操纵这些新型材料中电子和原子核的磁性(称为自旋)来探索此类应用。教育和推广活动无缝地融入研究,旨在改善各级科学教学。与这个职业项目相关的研究生将接受现代物理实验室使用的先进实验技术的培训,以研究这些系统的量子特性。匹兹堡大学物理专业的本科生将通过REU计划参与实验室的研究活动。为了激励下一代科学家并融入现代主动学习原则,将开发解释重要物理主题和当前研究的计算机模拟和学习游戏,并免费提供给学生和公众。技术摘要 * 该职业奖资助一项联合研究和教育计划,该计划将探索在复杂环境中控制量子系统的量子相干性和纠缠的方法。该研究计划将利用金刚石材料和纳米结构中的电子和核自旋研究量子纠缠的基本特性。这些材料具有卓越的机械、电子、光学和磁性,有可能对下一代技术产生重大影响。量子纠缠还提供了一种新的自由度,可以显著增强我们处理和存储信息的能力。一个核心问题是量子纠缠和动力学如何受到复杂固态环境的影响。光学和磁共振光谱工具将与高空间分辨率技术沿着应用,以产生,控制和探测纠缠并研究这个问题。教育和推广活动无缝地融入研究,旨在改善各级科学教学。与这个职业项目相关的研究生将接受现代物理实验室使用的先进实验技术的培训,以研究这些系统的量子特性。匹兹堡大学物理专业的本科生将通过REU计划参与实验室的研究活动。为了激励下一代科学家并融入现代主动学习原则,将开发解释重要物理主题和当前研究的计算机模拟和学习游戏,并免费提供给学生和公众。
项目成果
期刊论文数量(0)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(0)
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Gurudev Dutt其他文献
Gurudev Dutt的其他文献
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{{ truncateString('Gurudev Dutt', 18)}}的其他基金
Development of an Electron Paramagnetic Resonance Spectrometer with Zeptomole Sensitivity
具有 Zeptomole 灵敏度的电子顺磁共振波谱仪的研制
- 批准号:
2304998 - 财政年份:2023
- 资助金额:
$ 55万 - 项目类别:
Continuing Grant
Collaborative Research: Light-Matter Quantum Interface with Nitrogen Vacancy Centers in Diamond.
合作研究:光物质量子界面与钻石中的氮空位中心。
- 批准号:
1005341 - 财政年份:2010
- 资助金额:
$ 55万 - 项目类别:
Continuing Grant
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