Nearly nondestructive thermometry of labeled cold atoms and application to isotropic laser cooling
We have designed and implemented a straightforward method to deterministically measure the temperature of the selected segment of a cold atom ensemble, and we have also developed an upgrade in the form of nondestructive thermometry. The essence is to monitor the thermal expansion of the targeted col...
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| Abstract | We have designed and implemented a straightforward method to deterministically measure the temperature of the selected segment of a cold atom ensemble, and we have also developed an upgrade in the form of nondestructive thermometry. The essence is to monitor the thermal expansion of the targeted cold atoms after labeling them through manipulating the internal states, and the nondestructive property relies upon the nearly lossless detection via driving a cycling transition. For cold atoms subject to isotropic laser cooling, this method has the unique capability of addressing only the atoms on the optical detection axis within the enclosure, which is exactly the part we care about in major applications such as atomic clock or quantum sensing. Furthermore, our results confirm the sub-Doppler cooling features in isotropic laser cooling, and we have investigated the relevant cooling properties. Meanwhile, we have applied the recently developed optical configuration with the cooling laser injection in the form of hollow beams, which helps to enhance the cooling performance and accumulate more cold atoms in the central regions. |
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| AbstractList | Phys. Rev. Applied 14, 024030 (2020) We have designed and implemented a straightforward method to
deterministically measure the temperature of the selected segment of a cold
atom ensemble, and we have also developed an upgrade in the form of
nondestructive thermometry. The essence is to monitor the thermal expansion of
the targeted cold atoms after labeling them through manipulating the internal
states, and the nondestructive property relies upon the nearly lossless
detection via driving a cycling transition. For cold atoms subject to isotropic
laser cooling, this method has the unique capability of addressing only the
atoms on the optical detection axis within the enclosure, which is exactly the
part we care about in major applications such as atomic clock or quantum
sensing. Furthermore, our results confirm the sub-Doppler cooling features in
isotropic laser cooling, and we have investigated the relevant cooling
properties. Meanwhile, we have applied the recently developed optical
configuration with the cooling laser injection in the form of hollow beams,
which helps to enhance the cooling performance and accumulate more cold atoms
in the central regions. We have designed and implemented a straightforward method to deterministically measure the temperature of the selected segment of a cold atom ensemble, and we have also developed an upgrade in the form of nondestructive thermometry. The essence is to monitor the thermal expansion of the targeted cold atoms after labeling them through manipulating the internal states, and the nondestructive property relies upon the nearly lossless detection via driving a cycling transition. For cold atoms subject to isotropic laser cooling, this method has the unique capability of addressing only the atoms on the optical detection axis within the enclosure, which is exactly the part we care about in major applications such as atomic clock or quantum sensing. Furthermore, our results confirm the sub-Doppler cooling features in isotropic laser cooling, and we have investigated the relevant cooling properties. Meanwhile, we have applied the recently developed optical configuration with the cooling laser injection in the form of hollow beams, which helps to enhance the cooling performance and accumulate more cold atoms in the central regions. |
| Author | Sun, Yuan Hua-Dong, Cheng Jin-Yin, Wan Yan-Ling, Meng Wang, Xin Liu, Liang Xiao, Ling |
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| BackLink | https://doi.org/10.1103/PhysRevApplied.14.024030$$DView published paper (Access to full text may be restricted) https://doi.org/10.48550/arXiv.2006.08112$$DView paper in arXiv |
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| Snippet | We have designed and implemented a straightforward method to deterministically measure the temperature of the selected segment of a cold atom ensemble, and we... Phys. Rev. Applied 14, 024030 (2020) We have designed and implemented a straightforward method to deterministically measure the temperature of the selected... |
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| SubjectTerms | Atomic clocks Cold Cold atoms Cooling Laser beams Laser cooling Lasers Matter & antimatter Optical properties Physics - Atomic Physics Physics - Quantum Physics Thermal expansion |
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| Title | Nearly nondestructive thermometry of labeled cold atoms and application to isotropic laser cooling |
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