A single-atom 3D sub-attonewton force sensor

Valdis Blūms; Marcin Piotrowski; Mahmood I. Hussain; Benjamin G. Norton; Steven C. Connell; Stephen Gensemer; Mirko Lobino; Erik W. Streed

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A single-atom 3D sub-attonewton force sensor

机译：单原子3D亚原子牛顿力传感器

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Forces drive all physical interactions. High-sensitivity measurement of the effect of forces enables the quantitative investigation of physical phenomena. Laser-cooled trapped atomic ions are a well-controlled quantum system whose low mass, strong Coulomb interaction, and readily detectable fluorescence signal make them a favorable platform for precision metrology. We demonstrate a three-dimensional sub-attonewton sensitivity force sensor based on a super-resolution imaging of a single trapped ion. The force is detected by measuring the ion’s displacement in three dimensions with nanometer precision. Observed sensitivities were 372 ± 9, 347 ± 18, and 808 ± 51 zN/ , corresponding to 24×, 87×, and 21× above the quantum limit. We verified this technique by measuring a 95-zN light pressure force, an important systematic effect in optically based sensors.

机译：力驱动所有的身体互动。对力作用的高灵敏度测量可以对物理现象进行定量研究。激光冷却的俘获原子离子是一个受控制的量子系统，其低质量，强大的库仑相互作用以及易于检测的荧光信号使其成为精密计量的理想平台。我们演示了基于单个捕获离子的超分辨率成像的三维亚反牛顿灵敏度力传感器。通过以纳米精度测量三维离子的位移来检测力。观察到的灵敏度为372±9、347±18和808±51 zN /，对应于量子极限以上的24倍，87倍和21倍。我们通过测量95-zN的光压力来验证该技术，这是基于光学的传感器的重要系统效果。

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《Science Advances 》 |2018年第3期| 共页
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Valdis Blūms; Marcin Piotrowski; Mahmood I. Hussain; Benjamin G. Norton; Steven C. Connell; Stephen Gensemer; Mirko Lobino; Erik W. Streed;
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5. Authenticating Users with 3D Passwords Captured by Motion Sensors =基于3D密码的用户认证研究 [D] . Tian, Jing. 2018

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6. A single-atom 3D sub-attonewton force sensor [O] . Valdis Blūms, Marcin Piotrowski, Mahmood I. Hussain, 2018

机译：单原子3D亚大气压牛顿力传感器
7. A single-atom 3D sub-attonewton force sensor [O] . Blūms, V., Piotrowski, M., Hussain, M. I., 2017

机译：单原子3D sub-attonewton力传感器

A single-atom 3D sub-attonewton force sensor

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