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Observation of Atomic Dynamic Behaviors in the Evaporative Cooling by In-Situ Imaging the Plugged Hole of Ultracold Atoms
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作者 Tian-You Gao Dong-Fang Zhang +2 位作者 Ling-Ran Kong Rui-Zong Li Kai-Jun Jiang 《Chinese Physics Letters》 SCIE CAS CSCD 2018年第8期58-61,共4页
We experimentally observe the dynamic evolution of atoms in the evaporative cooling, by in-situ imaging the plugged hole of ultracold atoms. Ultracold rubidium atoms confined in a magnetic trap are plugged using a blu... We experimentally observe the dynamic evolution of atoms in the evaporative cooling, by in-situ imaging the plugged hole of ultracold atoms. Ultracold rubidium atoms confined in a magnetic trap are plugged using a blue-detuned laser beam with a waist of 20 m at a wavelength of 767 nm. We probe the variation of the atomic temperature and width versus the radio frequency in the evaporative cooling. Both the behaviors are in good agreement with the calculation of the trapping potential dressed by the rf signal above the threshold temperature,while deviating from the calculation near the phase transition. To accurately obtain the atomic width, we use the plugged hole as the reference to optimize the optical imaging system by precisely minimizing the artificial structures due to the defocus effect. 展开更多
关键词 Observation of Atomic Dynamic Behaviors in the Evaporative Cooling by In-Situ Imaging the Plugged hole of Ultracold Atoms
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Biodegradable mineralized collagen plug for the reconstruction of craniotomy burr‐holes:A report of three cases 被引量:12
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作者 Zhiye Qiu Yuqi Zhang +2 位作者 Ziqiang Zhang Tianxi Song Fuzhai Cui 《Translational Neuroscience and Clinics》 2015年第1期3-9,共7页
Objectives: In this case report, we describe the design, fabrication and clinical outcomes of a novel bioresorbable, mineralized collagen burr‐hole plug for the reconstruction of craniotomy burr‐holes. Methods: Mine... Objectives: In this case report, we describe the design, fabrication and clinical outcomes of a novel bioresorbable, mineralized collagen burr‐hole plug for the reconstruction of craniotomy burr‐holes. Methods: Mineralized collagen burr‐hole plugs were fabricated via a biomimetic mineralization process. The biomimetic mineralized collagen has a similar chemical composition and microstructure to natural bone tissue, thereby possessing good biocompatibility and osteoconductivity. The mineralized collagen burr‐hole plugs were implanted into three patients, and clinical outcomes were evaluated at one‐year follow‐ups. Results: All bone defects healed very well using the mineralized collagen burr‐hole plugs, and there were no adverse reactions at the surgical sites. Conclusions: The clinical outcomes indicated that the mineralized collagen was effective for reconstructing burr‐holes in the skull after craniotomy. 展开更多
关键词 mineralized collagen burr‐hole plug BIORESORBABLE clinical observation
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