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A new optical pumping scheme is presented that uses incoherent Raman transitions to prepare a trapped Cesium atom in a specific Zeeman state within the 6S_{1/2}, F=3 hyperfine manifold. An important advantage of this scheme over existing…

Quantum Physics · Physics 2009-11-13 A. D. Boozer , R. Miller , T. E. Northup , A. Boca , H. J. Kimble

With the development of microwave atomic clocks, the Zeeman shifts for the spectral lines of black-body radiation need to be investigated carefully. In this Letter, the frequency shifts of hyperfine splittings of atomic ground states due to…

Atomic Physics · Physics 2020-02-12 Jize Han , Yani Zuo , Jianwei Zhang , Lijun Wang

We demonstrate laser slowing of a hot thulium atomic beam using the nearly closed cycling transition…

We consider a narrow magneto-dipole transition in the $^{169}$Tm atom at the wavelength of $1.14\,\mu$m as a candidate for a 2D optical lattice clock. Calculating dynamic polarizabilities of the two clock levels $[\text{Xe}]4f^{13}6s^2…

We present measurements on a metastable state in $\mathrm{Th}^{2+}$ with the electronic configuration $6d^2\,{}^3P_0\,(5090\ \mathrm{cm^{-1}})$. This is motivated by the prospect of using the state in laser excitation of the low-energy…

Atomic Physics · Physics 2026-05-11 S. Sagar Maurya , V. Lal , J. Tiedau , M. V. Okhapkin , E. Peik

A method for highly accurate calculations of atomic electric quadrupole moments (EQM) is presented, using relativistic general-excitation-rank configuration interaction wavefunctions based on Dirac spinors. Application to the clock…

Atomic Physics · Physics 2023-02-06 Timo Fleig

We present an all-optical method for efficiently preparing cold atoms in a desired Zeeman state, either on the magnetically insensitive clock state (m_F=0) or a particular state suitable for processing or storing quantum information. By…

Atomic Physics · Physics 2023-09-08 Jia-You Liou , Chi-En Wu , Hsuan-Jui Su , Yi-Hsin Chen

We study a wide range of neutral atoms and ions suitable for ultra-precise atomic optical clocks with naturally suppressed black body radiation shift of clock transition frequency. Calculations show that scalar polarizabilities of clock…

Atomic Physics · Physics 2015-06-22 Alexander Kozlov , Vladimir Dzuba , Victor Flambaum

Atoms are not two-level systems, and their rich internal structure often leads to complex phenomena in the presence of light. Here, we analyze off-resonant light scattering including the full hyperfine and magnetic structure. We find a set…

A suitable scheme to continuously create inversion on an optical clock transition with negligible perturbation is a key missing ingredient required to build an active optical atomic clock. Re- pumping of the atoms on the narrow transition…

Quantum Physics · Physics 2022-02-23 Christoph Hotter , David Plankensteiner , Georgy Kazakov , Helmut Ritsch

We demonstrate control of the differential Zeeman shift between clock states of ultracold rubidium atoms by means of non-resonant microwave dressing. Using the dc-field dependence of the microwave detuning, we suppress the first and second…

Atomic Physics · Physics 2017-07-13 L. Sárkány , P. Weiss , H. Hattermann , J. Fortágh

With direct polarizability measurements we demonstrated extremely low sensitivity of the inner-shell clock transition at $1.14\,\mu$m in Tm atoms to external dc electric fields and black-body radiation (BBR). We measured differential…

Atomic Physics · Physics 2021-07-13 A. Golovisin , E. Fedorova , D. Tregubov , D. Sukachev , K. Khabarova , V. Sorokin , N. Kolachevsky

Coherent dark states in atoms, created by simultaneous interaction of two coherent light fields with a 3-level system, are of prime importance in quantum state manipulation. They are used extensively in quantum sensing and quantum…

Atomic Physics · Physics 2019-09-09 M. Shuker , J. W. Pollock , V. I. Yudin , J. Kitching , E. A. Donley

The nucleus of 229Thorium presents a unique isomer state of very low energy and long lifetime, current estimates are around 7.8 eV and seconds to hours respectively. This nuclear transitions therefore is a promising candidate for a novel…

Atomic Physics · Physics 2013-04-18 G. A. Kazakov , M. Schreitl , G. Winkler , J. H. Sterba , G. Steinhauser , T. Schumm

Recently, the thulium atom was cooled down to the Bose-Einstein condensation temperature, thus opening a pathway to quantum simulation with this atom. However, successful simulations require instruments to control and readout states of the…

We propose a new class of atomic microwave clocks based on the hyperfine transitions in the ground state of aluminum or gallium atoms trapped in optical lattices. For these elements magic wavelengths exist at which both levels of the…

Atomic Physics · Physics 2009-04-09 K. Beloy , A. Derevianko , V. A. Dzuba , V. V. Flambaum

Thorium-229 is a unique case in nuclear physics: it presents a metastable first excited state Th-229m, just a few electronvolts above the nuclear ground state. This so-called isomer is accessible by VUV lasers, which allows transferring the…

We have performed ab initio calculations of the frequency shift induced by a static electric field on the cesium clock hyperfine transition. The calculations are used to find the frequency shifts due to blackbody radiation. Our result…

Atomic Physics · Physics 2009-11-11 E. J. Angstmann , V. A. Dzuba , V. V. Flambaum

Active optical clock, a new conception of atomic clock, has been proposed recently. In this report, we propose a scheme of active optical clock based on four-level quantum system. The final accuracy and stability of two-level quantum system…

Atomic Physics · Physics 2014-04-18 Tonggang Zhang , Yanfei Wang , Xiaorun Zang , Wei Zhuang , Jingbiao Chen

Short coherence times present a primary obstacle in quantum computing and sensing applications. In atomic systems, clock transitions (CTs), formed from avoided crossings in an applied Zeeman field, can substantially increase coherence…

Chemical Physics · Physics 2021-11-22 Sina G. Lewis , Kori E. Smyser , Joel D. Eaves