Kozyryev Ivan, Baum Louis, Matsuda Kyle, Augenbraun Benjamin L, Anderegg Loic, Sedlack Alexander P, Doyle John M
Harvard-MIT Center for Ultracold Atoms, Cambridge, Massachusetts 02138, USA.
Department of Physics, Harvard University, Cambridge, Massachusetts 02138, USA.
Phys Rev Lett. 2017 Apr 28;118(17):173201. doi: 10.1103/PhysRevLett.118.173201. Epub 2017 Apr 24.
We perform magnetically assisted Sisyphus laser cooling of the triatomic free radical strontium monohydroxide (SrOH). This is achieved with principal optical cycling in the rotationally closed P(N^{''}=1) branch of either the X[over ˜]^{2}Σ^{+}(000)↔A[over ˜]^{2}Π_{1/2}(000) or the X[over ˜]^{2}Σ^{+}(000)↔B[over ˜]^{2}Σ^{+}(000) vibronic transitions. Molecules lost into the excited vibrational states during the cooling process are repumped back through the Bover ˜ state for both the (100) level of the Sr-O stretching mode and the (02^{0}0) level of the bending mode. The transverse temperature of a SrOH molecular beam is reduced in one dimension by 2 orders of magnitude to ∼750 μK. This approach opens a path towards creating a variety of ultracold polyatomic molecules by means of direct laser cooling.
我们对三原子自由基氢氧化锶(SrOH)进行了磁辅助西西弗斯激光冷却。这是通过在X[]²Σ⁺(000)↔A[]²Π₁/₂(000)或X[]²Σ⁺(000)↔B[]²Σ⁺(000)振转跃迁的旋转闭合P(N″ = 1)分支中的主光学循环来实现的。在冷却过程中进入激发振动态的分子,对于Sr - O伸缩模式的(100)能级和弯曲模式的(02⁰0)能级,都通过B~态被重新泵浦回来。SrOH分子束的横向温度在一维方向上降低了2个数量级,降至约750 μK。这种方法为通过直接激光冷却创建各种超冷多原子分子开辟了一条道路。
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