利用量子计算自旋技术中的已知技术增强体内电子顺磁共振分辨率
In Vivo EPR Resolution Enhancement Using Techniques Known from Quantum Computing Spin Technology.
作者信息
Rahimi Robabeh, Halpern Howard J, Takui Takeji
机构信息
Department of Radiation Oncology, University of Miami Miller School of Medicine, Miami, USA.
Department of Radiation and Cellular Oncology, University of Chicago, Chicago, IL, USA.
出版信息
Adv Exp Med Biol. 2017;977:335-339. doi: 10.1007/978-3-319-55231-6_44.
PMID:28685463
Abstract
A crucial issue with in vivo biological/medical EPR is its low signal-to-noise ratio, giving rise to the low spectroscopic resolution. We propose quantum hyperpolarization techniques based on 'Heat Bath Algorithmic Cooling', allowing possible approaches for improving the resolution in magnetic resonance spectroscopy and imaging.
摘要
体内生物/医学电子顺磁共振的一个关键问题是其低信噪比,这导致了低光谱分辨率。我们提出了基于“热浴算法冷却”的量子超极化技术,为提高磁共振波谱学和成像的分辨率提供了可能的途径。
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In Vivo EPR Resolution Enhancement Using Techniques Known from Quantum Computing Spin Technology.利用量子计算自旋技术中的已知技术增强体内电子顺磁共振分辨率
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