We report the realization of ytterbium magneto-optical trap (MOT) operating on the dipole-allowed ^1S0 - ^1P1 transition at 398.9nm. The MOT is loaded by a slowed atomic beam produced by a Zeeman slower. All seven s...We report the realization of ytterbium magneto-optical trap (MOT) operating on the dipole-allowed ^1S0 - ^1P1 transition at 398.9nm. The MOT is loaded by a slowed atomic beam produced by a Zeeman slower. All seven stable isotopes of Yb atoms could be trapped separately at different laser detuning values. Over 10^7 174 Yb atoms are collected in the MOT, whereas the atom number of fermionic isotope ^171Yb is roughly 2.3 × 10^6 due to a lower abundance. Without the Zeeman slower the trapped atom numbers are one order of magnitude lower. Both the even and odd isotopes are recognized as excellent candidates of optical clock transition, so the cooling and trapping of ytterbium atoms by the blue MOT is an important step for building an optical clock.展开更多
We report the experimental realization of a magneto-optical trap (MOT) of ^174 Yb atoms operating on the ^1 So -^3 P1 intereombination transition at 555.8nm. The green MOT is loaded by a Zeeman-slowed atomic beam. I...We report the experimental realization of a magneto-optical trap (MOT) of ^174 Yb atoms operating on the ^1 So -^3 P1 intereombination transition at 555.8nm. The green MOT is loaded by a Zeeman-slowed atomic beam. In order to increase the capture velocity of the MOT, we use the trapping laser beams consisting of five discrete frequency components obtained by modulating the laser light through an electro-optic modulator. The trapped atomic number of the ^174Yb isotope is about 6.2 × 105, and the temperature of the cold atomic cloud is estimated to be about 100μK. The success of the green MOT is an clock. important step towards the goal of an ytterbium optical展开更多
Diffraction-free vectorial elliptic hollow beams(vEHBs)are generated by an optical system composed of a short elliptic hollow fiber(EHF)and an axicon.Each beam has a closed elliptic annular intensity profile and space...Diffraction-free vectorial elliptic hollow beams(vEHBs)are generated by an optical system composed of a short elliptic hollow fiber(EHF)and an axicon.Each beam has a closed elliptic annular intensity profile and space-varying polarization states in its diffraction-free distance of more than 1 m.The generated beams have a counter-clockwise or clockwise periodically-rotated inhomogeneous polarization.And the spin angular momentum(SAM)of the vEHBs is 1ħor-1ħwhich is consistent with the type of dual-mode in the EHF and the periodic polarization rotations of the vEHBs.The vEHBs have potential applications in optically trapping and micromanipulating the micro-or nano-particles,quantum information transmission,and Bose-Einstein condensates,etc.展开更多
The isotope shifts(TSs) for the 2s2S(1/2) to 2p2PJ(J = 1/2,3/2) transitions of the lithium nuclei including the stable and short-lived isotopes are calculated based on the multi-configuration Dirac-Hartree-Fock ...The isotope shifts(TSs) for the 2s2S(1/2) to 2p2PJ(J = 1/2,3/2) transitions of the lithium nuclei including the stable and short-lived isotopes are calculated based on the multi-configuration Dirac-Hartree-Fock method and the relativistic configuration interaction approach.The results are in good agreement with the previous theoretical and experimental results within a deviation less than 0.05%.The methods used here could be applied to the IS calculations for other heavier Li-like ions and few-electron systems.展开更多
基金Supported by the National Natural Science Foundation of China under Grant No 10634060, and the National Key Basic Research and Development Programme of China under Grant Nos 2005CB724501 and 2006CB921406, and the Youth Chenguang Project of Science and Technology of Wuhan City of Cbina under Grant No 200750731297.
文摘We report the realization of ytterbium magneto-optical trap (MOT) operating on the dipole-allowed ^1S0 - ^1P1 transition at 398.9nm. The MOT is loaded by a slowed atomic beam produced by a Zeeman slower. All seven stable isotopes of Yb atoms could be trapped separately at different laser detuning values. Over 10^7 174 Yb atoms are collected in the MOT, whereas the atom number of fermionic isotope ^171Yb is roughly 2.3 × 10^6 due to a lower abundance. Without the Zeeman slower the trapped atom numbers are one order of magnitude lower. Both the even and odd isotopes are recognized as excellent candidates of optical clock transition, so the cooling and trapping of ytterbium atoms by the blue MOT is an important step for building an optical clock.
基金Supported by the National Natural Science Foundation of China under Grant No 10634060 and the National Basic Research Program of China under Grant Nos 2005CB724501 and 2006CB921406.
文摘We report the experimental realization of a magneto-optical trap (MOT) of ^174 Yb atoms operating on the ^1 So -^3 P1 intereombination transition at 555.8nm. The green MOT is loaded by a Zeeman-slowed atomic beam. In order to increase the capture velocity of the MOT, we use the trapping laser beams consisting of five discrete frequency components obtained by modulating the laser light through an electro-optic modulator. The trapped atomic number of the ^174Yb isotope is about 6.2 × 105, and the temperature of the cold atomic cloud is estimated to be about 100μK. The success of the green MOT is an clock. important step towards the goal of an ytterbium optical
基金Project supported by the National Natural Science Foundation of China(Grant Nos.11304093 and 11274114)the Hubei Provincial Natural Science Foundation,China(Grant No.2018CFB320)the Academic Discipline Project of Hubei Normal University,China(Grant Nos.2014F012 and 2014F013).
文摘Diffraction-free vectorial elliptic hollow beams(vEHBs)are generated by an optical system composed of a short elliptic hollow fiber(EHF)and an axicon.Each beam has a closed elliptic annular intensity profile and space-varying polarization states in its diffraction-free distance of more than 1 m.The generated beams have a counter-clockwise or clockwise periodically-rotated inhomogeneous polarization.And the spin angular momentum(SAM)of the vEHBs is 1ħor-1ħwhich is consistent with the type of dual-mode in the EHF and the periodic polarization rotations of the vEHBs.The vEHBs have potential applications in optically trapping and micromanipulating the micro-or nano-particles,quantum information transmission,and Bose-Einstein condensates,etc.
基金Project supported by the Young Scientists Fund of the National Natural Science Foundation of China(Grant No.11304093)the Fund of the Scientific Research Foundation of Sichuan Provincial Department of Education,China(Grant No.15ZB0386)the Fund of the 1315 Project of Chengdu University,China(GrantNo.2081915041)
文摘The isotope shifts(TSs) for the 2s2S(1/2) to 2p2PJ(J = 1/2,3/2) transitions of the lithium nuclei including the stable and short-lived isotopes are calculated based on the multi-configuration Dirac-Hartree-Fock method and the relativistic configuration interaction approach.The results are in good agreement with the previous theoretical and experimental results within a deviation less than 0.05%.The methods used here could be applied to the IS calculations for other heavier Li-like ions and few-electron systems.